Seed Times - Doubling the Farmers Income - Vol 12 No. 1 Jan- Apr 2019

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Seed Times January - April 2019

Volume 12 No. 1, January - April 2019

The National Seed Association of India Magazine

Doubling the Farmers' Income

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2 Doubling the Farmers’ Income 96 Vegetable Seed Industry - India & World

Seed Times July - December 2016


Seed Times January - April 2019

ABOUT NSAI

National Seed Association of India (NSAI) is the apex organization representing the Indian seed industry. The vision of NSAI is to create a dynamic, innovative and internationally competitive, research based industry producing high performance, high quality seeds and planting materials which benefit farmers and significantly contribute to the sustainable growth of Indian Agriculture. The mission of NSAI is to encourage investment in state of the art R&D to bring to the Indian farmer superior genetics and technologies, which are high performing and adapted to

a wide range of agro-climatic zones. It actively contributes to the seed industry policy development, with the concerned governments, to ensure that policies and regulations create an enabling environment, including public acceptance, so that the industry is globally competitive. NSAI promotes harmonization and adoption of best commercial practices in production, processing, quality control and distribution of seeds.

NSAI Governing Council Members

NSAI Office Bearers President: M. Prabhakar Rao Nuziveedu Seeds Ltd.

G.V. Bhaskar Rao Kaveri Seed Co. Ltd.

Ashwin Garg Super Seeds Pvt. Ltd.

Vice President: Sameer Mulay Ajeet Seeds Ltd.

N.P. Patel Western Agri Seeds Ltd

Kamal O. Zunzunwala Safal Seeds & Biotech Ltd.

General Secretary: Pranjivan Zaveri Farm Tech Biogene Pvt. Ltd. Treasurer: Pawan Kumar Kansal Kohinoor Seed Fields India Pvt. Ltd.

Janak Peshrana Seeds India K. Niranjan Kumar GARC Seeds Pvt. Ltd. Arun Kumar Agarwalla West Bengal Hybrid Seeds & Biotech Pvt. Ltd.

K.S. Narayanaswamy Karnataka Maize Development Association Dr. Manish Patel Integrated Coating and Seed Technology

NSAI SECRETARIAT R K Trivedi Executive Director

Indra Shekhar Singh Program Director for Policy & Outreach

Priyank Samuel Asst. Manager - Brand Alliance & Communication

Deepanker Pandey Research Associate

Yash Pal Saini Sr. Manager- Admin & Accounts

Neetu Thapliyal Research Associate

Sher Singh Office Assistant

Compiled & edited by: Deepanker Pandey and Neetu Thapliyal Designed Coordinated by: Priyank Samuel G | Advertisements Coordinated by: Yashpal Saini The views and opinions expressed by the authors are their own and NSAI by publishing them here, does not endorse them. The editorial correspondence should be sent to, National Seed Association of India, 909, Surya Kiran Building, 19, Kasturba Gandhi Marg, New Delhi-110001 (INDIA); Ph.: 011-4353 3241-43 Fax : 011-43533248; E-mail : info@nsai.co.in

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Designed and Printed at: YUKTI PRINTS, 338 First Floor, Old Four Story Building, Tagore Guarden Extn., New Delhi - 27 | E-mail: yuktiprints@gmail.com


Seed Times January - April 2019

TABLE OF CONTENTS Message from Desk of President, NSAI

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Message from Executive Director, NSAI

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1.

Vertical Farming: An initiative for farmers’ income doubling 11 Dr. Meenakshi Joshi, Chief Horticulture Officer, District: Pithoragarh, Uttarakhand.

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Amur Carp: A new Entrepreneurship for Doubling Farmers’ Income in Bihar, India Dr. Adita Sharma and Dr. Tanushri Ghorai, Assistant Professor, College of Fisheries, Dholi, Dr. Rajendra Prasad, Central Agricultural University, PUSA, Muzaffarpur, Bihar-843121

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Doubling Farmers’ Income through Seed Production Mrinali Mandape, PhD Scholar, Division of Seed Science and Technology, ICAR-Indian Agricultural Research Institute, New Delhi-110012

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4.

Strategies for Doubling the Farmers’ Income in India Tabassum, PhD Scholar, Department of Genetics and Plant Breeding, College of Agriculture, GBPUAT, Pantnagar, US Nagar-263145, Uttarakhand

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Doubling the Farmers’ Income: Core Challenge, Strategy & Way Forward Dr Mohammed Talha1 and Dr Harsha2 1. PhD-Research Scholar, Department of Genetics and Plant Breeding, GBPUAT, Pantnagar, U S Nagar, Uttarakhand- 263145, India 2. Agriculture Officer, Assistant Director office Beawar, Rajsthan

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Realising the Aim of Doubling the Farmers’ Income Neetu Thapliyal1 and Deepanker Pandey2 1. Research Associate, National Seed Association of India, 2. Assistant Director, National Seed Association of India

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Doubling Farmers’ Income through Livestock Dr Geeta, Veterinary officer, Uttarkashi, Uttarakhand, India

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Message

from Desk of

President Agriculture sustains India. Not only does it provide livelihood for majority of Indians, it is the source of our culture and traditions. Harvests are celebrated as festivals and droughts as most evil of calamities. We as Indians have respected nature for thousands of years and Prithvi has reciprocated by giving us abundance. We are the centre of diversity of so many vegetables, fruits and other food crops. We are blessed with multiple agro-climate zones where all crops can grow. Harnessing this biodiversity and abundance, India has a potential to become the seed provider to the world. The Government of India in its annual budget of 201617 announced the policy of doubling farmers’ income by 2022. A ‘Make in India’ seed program will bring employment in rural areas and bring prosperity to Indian farmers, while at the same time share our rich genetic resources with farmers of other nations. Seed industry in India today is way passed its foundation stages and taking long strides towards robust growth. While we have had many challenges along the way, today we are a vibrant seed industry with a strong foundation entrenched in indigenous innovation and technology. But to achieve our national goal of doubling farmers’ income sooner, we might need a new outlook. We need strong economic policy, which puts India first and hence, provide a chance for the Indian seed sector to forge deeper relationships with the world and bring more wealth for our hard working farmers. There is a need for bridging the gap from lab to the farmers’ field, augmenting R & D capabilities and institutional collaboration and improvement in policy that engages the public and private sectors. We want to work with farmers for development and delivery of improved crops. Hence, aim of ‘Doubling the farmers’ income’ initiative of Government of India has to be met coherently through productivity enhancement coupled with R&D work and policy support. The current issue of Seed Times is on “Doubling the Farmers’ Income”. This edition will provide useful information for our reader to know more about the current status of farmers’ income, availability of improved varieties and role of allied sectors. The analysis and insights in the issue will provide us an opportunity to re-think our strategies for establishing innovation based seed industry. I thank the contributors and the team for this issue. Once again, on behalf of NSAI, I dedicate this issue to Indian farmers and hope to work towards making agriculture more profitable for farmers and India. M Prabhakar Rao Doubling the Farmers’ Income 7


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Message

from Desk of

Executive Director Indian Agriculture has grown impressively and Seed Sector has played key role in this growth. Quality Seed is the pivotal input for sustained growth of agricultural sector and other inputs are contingent upon quality of seed being optimally effective. With strong research back up, the Indian Seed Industry is ready to drive with full force for adopting best innovative practices. In this edition, we have covered the Prime Minister’s vision of doubling farmers income by 2022 which is worth serious attention. This laudable objective could not only improve the well-being of our farmers but will also trigger to boost agri-based industrial growth in rural India. Doubling farmers’ income implies increasing income from crop cultivation and allied sources keeping in mind the market trend. Indian seed industry has also been highly agile in adopting new varieties and hybrids which have delivered value. Both public and private sector can play a vital role in improving the livelihoods of the farmers in rural India and the overall upliftment of agrarian economy. I hope the readers would greatly benefit from the magazine. Happy Reading! R K Trivedi

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Seed Times September - December 2018

Vertical Farming: An initiative for Doubling farmers’ income Dr. Meenakshi Joshi

Chief Horticulture Officer, District: Pithoragarh, Uttarakhand. mjoshi0089@gmail.com Seventy percent of the rural households depend primarily on agriculture for their livelihood, with 82 percent of farmers being small and marginal. But there is a vast disparity between farmers’ income and non-agricultural workers as a result an agrarian distress is seen in the country. The goal is set to double farmers income by 2022 is to promote farmers welfare, to reduce agricultural distress and to bring prosperity to the agricultural professionals and farmers of the country.

Doubling farmers’ income by 2022 is the mandate of ministry of agriculture India. As per FAO (2016), fifty-nine percent of the employment is generated in India by agriculture and contributed 23% to the country’s GDP. Seventy percent of the rural households depend primarily on agriculture for their livelihood, with 82 percent of farmers being small and marginal. But there is a vast disparity between farmers’ income and non-agricultural workers as a result an agrarian distress is seen in the country. The goal is set to double farmers income by 2022 is to promote farmers welfare, to reduce agricultural distress and to bring prosperity to the agricultural professionals and farmers of the country. In Uttarakhand cultivated land is 0.8 million ha. Out of the total, about 89% are under small and marginal. A large number and area are under small and marginal holdings, the scale of economies cannot be availed of, and so the input cost per unit of output is higher. Uttarakhand is the state with hilly as well as plain terrain. If we consider horticulture, it can positively contribute to the economy of the state. . In mountain agriculture, most of the farmers are small to marginal, and have landholdings less than 2 ha. In district of Pithoragarh, total of 79,846 persons are practicing farming. The average size of operational landholdings is 1.08 Doubling the Farmers’ Income 11


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ha as per the census 2015-16. The smaller land holdings contribute less economic returns as the farmers’ livelihood depends completely on his small landholdings. The farmer focuses on cultivation of rice and wheat for daily need of food. Even the slightest of climatic effects, calamities or crop loss can make their economic return negative.

Vertical farming: The new concept of Vertical Farming can help farmers in doubling their incomes in one year. Vertical farming is the production of fruits, vegetables, flowers, and medicinal plants in vertical surfaces or integration with other structures. Vertical farming is based on the idea of indoor farming techniques in controlled environmental conditions with artificial control of light, environmental control (humidity, temperature, gases, etc.) and fertigation. Some vertical farms use techniques similar to greenhouses, where natural sunlight can be augmented with artificial lighting and metal reflectors. Technologies and devices: Vertical farming uses various physical methods or technologies in an integrated manner to make Vertical Farming a reality. The most common technologies are Greenhouse, Aeroponics, Aquaponics, Hydroponics and skyscrapers.

Hydroponics: Water-based farming system In hills problems like migration, water scarcity, inadequate irrigation, biotic and abiotic stress, and animal menace prevail and are leading to low productivity. Scarcity of the necessary resources is a disturbing factor for the farmers and farmers are likely to divert from the agriculture activities to other nonagricultural activities for their livelihood . Hydroponics technique as a mean of vertical farming can be an alternative for increasing farmers’ income.

“Hydroponics is defined as “the cultivation of plants in water.” Hydroponics is, however, a technique for growing plants without using soil. By utilizing this technology, the roots absorb a balanced nutrient solution dissolved in water that meets all the plant’s developmental requirements.

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“Hydroponics is defined as “the cultivation of plants in water.” Hydroponics is, however, a technique for growing plants without using soil. By utilizing this technology, the roots absorb a balanced nutrient solution dissolved in water that meets all the plant’s developmental requirements. In Hydroponics system of cultivation almost all kinds of vegetables, fruits and herbs can be grown in the small area producing nutritious, pesticide-free, food per day to the small farmers. Hydroponic farming needs minimal water to produce the vegetables, fruits, and herbs, including reuse of the nutrient water continuously. It is the most efficient and cheapest manner for growing crops in a small area and can be an alternative to the traditional farming systems practiced in the country so far, as the vegetables produced are pesticide free, it can reduce the burdens on the health care systems and can improve the life expectancy. This farming can stop migration from the rural areas as the farmer can utilize a small space vertically and optimally getting production for daily consumptions as well as for the economic gains. The hydroponic technique is to adopt a simple, inexpensive green, pesticide-free technology for cultivation to use


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every piece of land available to produce vegetables, fruits and herbs using very little expense. Farmers can also become entrepreneurs by selling their excess produce to the markets directly, thus bringing them out of the poverty line and improving their lifestyles. It produces the healthiest crops with high yields requiring minimal efforts. Nutrients are supplied to roots directly resulting in rapid growth of plants with smaller roots. Soil-less culture uses 80% less space and 95% less water to grow plants in comparison to soil-based culture. Soil-less culture also provides efficient nutrient regulation, higher density planting, and leading to increased yield per ha along with better quality of produce. The closed, controlled environment can eliminate use of many pesticides that are often necessary to keep pests from destroying traditional crops. It is also useful for the hills as these regions are having a scarcity of arable or fertile land for agriculture. All of these factors and the delicious taste of the hydroponically grown vegetables become more obvious over time.

Hydroponics can be classified as Open and Closed systems. The open system of hydroponics includes growing beds, tubular plastics or vertical and horizontal pipes and individual containers while closed systems include floating roots, Nutrient Film technique, PVC or Bamboo Channels and plastic or polystyrene pots set up in columns.

Fig: Low Cost Hydroponic system prepare Hydroponics can be classified as Open and Closed systems. The open system of hydroponics includes growing beds, tubular plastics or vertical and horizontal pipes and individual containers while closed systems include floating roots, Nutrient Film technique, PVC or Bamboo Channels and plastic or polystyrene pots set up in columns. Substrates are used in the container; the substrate can be an inert material, e.g., Sand, rice husk, coconut fiber, clay-bricks, saw-dust, volcanic stones, vermicompost, and water can be used. Doubling the Farmers’ Income 13


Seed Times January - April 2019

Germinated plants in a tray at the two-leaf stage are shifted to the automated hydroponic system where water and nutrients are provided to the roots of plants. These plants are supplied with substrates for the support. Nutrients present in liquid form are mixed with the water in the tank established in the hydroponic farm. The nutrients and solution are changed every 7 to 10 days depending on the solution composition. The water can be reused, and the losses of water can be minimized, this system can be used to optimize resource use and can be an important technique for the increasing prosperity of the farmers.

Economic overview:

Government policies for establishing hydroponics units at subsidized rates can help farmers initially for the transfer of technology and dissemination. New schemes for vertical farming must be formulated for technology transfer and to motivate farmers about hydroponics technology.

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Potential profitability of vertical farming is always questioned for economic and environmental benefits. Major concerns are transportation and initial costs of establishing a hydroponic system. Initial costs of establishing a hydroponics unit are vary , and marginal farmers cannot afford the bigger and automated units. But by providing low-cost hydroponics units with Bamboo poly-houses or by installing hydroponics unit under the poly-houses at subsidized rates farmers can be helped for initial development period. Government policies for establishing hydroponics units at subsidized rates can help farmers initially for the transfer of technology and dissemination. New schemes for vertical farming must be formulated for technology transfer and to motivate farmers about hydroponics technology. The hydroponic technique can be an alternative to increasing farmers’ income, to meet the daily need of the population in the country and can reduce health expenses of the family with better economic gains. In hilly regions, better marketing of these vegetables can help farmers to get good returns as the price of hydroponic vegetables in Delhi is Rs 2400/Kg for green capsicum while farmers get 60 Rs/Kg price for capsicum in the local market, if traditionally grown. Hydroponics farming can provide better returns per unit area with optimum utilization of resources in the areas, where, resources are scarce, and demands are high. This vertical farming can be practiced at the rooftop or balcony also by people in non-agricultural activities. This farming can be a revolutionary step for meeting the population’s demand by the available resources.


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Advantages: Many of Vertical Farming’s potential benefits are obtained from scaling up hydroponic growing methods. There are several advantages of the hydroponic system described below: Preparation for the future: Population is continuously increasing, and the land is decreasing day by day. It is estimated that by the year 2050, the world’s population will increase by 3 billion people and close to 80% will live in urban areas. Vertical farms have the potential to feed the world’s population by creating additional farmland.

Reduction in health expenses: The crops produced are likely to be pesticide-free, so it can reduce burdens on the medical facilities, thus increasing the net income of the farmers and consumers.

Increased crop production: Crop production can be increased by increasing the number of crop seasons per year with a controlled environment and the losses due to biotic and abiotic stresses can also be reduced. It ultimately multiplies the productivity of the farm surface by a factor of 4 to 6 depending on the crop. In rooftop farming, the overall farm area will get increased, leading to the higher production per unit area. In situ consumption of city population will check the wastage due to transportation, spoilage, and infestation, ultimately leading to better economic gains.

Reduction of losses due to biotic stresses: Crops grown in traditional outdoor farming depends on supportive climatic conditions, and suffer from undesirable temperatures rain, monsoon, flooding, wildfires, and drought which ultimately leads to loss of crops or decreased yields. In Vertical Farming, productivity is mostly independent of weather, as the crops are grown under controlled conditions.

Conservation of natural resources: Vertical farming saves many natural resources as the human interference in the natural environment and biomes is reduced by practicing the farming vertically at a limited place with manipulated environmental conditions by reduced farmland, agricultural encroachment and deforestation can be avoided by vertical farming.

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A threat to industrial agriculture caused by phosphorous-based fertilizers and runoff and leaching losses can be avoided by vertical farming.

Reduction of Mass extinction: Traditional agriculture interferes with wild populations, while vertical farming would cause nominal harm to wildlife. Vertical farming works on the principle of optimization of the available resources; therefore, scarce resources are conserved, leading to the conservation of natural resources.

Food Security: Food security is one of the primary factors leading to economic upliftment. Production of food in wastelands or places like balcony, the rooftop can help the population to be secure for their consumption.

Contribution to national growth: Vertical farming can be a better tool for the growth of the nation as it combines technologies and socioeconomic practices. It allows cities to expand while remaining substantially selfsufficient in food. This would allow large urban/rural centers to grow without food constraints. Conventional crop growing in soil involves large space, lot of labour, and the large volume of water. In some places like metropolitan areas, the soil is not available for crop growing and in some regions scarcity of fertile cultivable arable lands due to their unfavorable geographical, or topographical conditions prevails. In conventional farming, there is a difficulty in hiring labor for agriculture practices. Hydroponics farming can help combat the challenges of climate change and also helps for efficient utilization of natural resources and mitigating malnutrition. Vertical farming can be the revolutionary farming in future for optimum use of resources, to ensure food security and nutritional security which, can ultimately lead to double farmers’ income and can help in the economic upliftment of the society.

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Seed Times Seed September Times January - December - April 2019 2018

Amur Carp: A New Entrepreneurship for Doubling Farmers’ Income in Bihar, India Dr. Adita Sharma and Dr. Tanushri Ghorai The paradox of fisheries development in Bihar is that while it has large, untapped and underutilized water resources for aquaculture, there is a large gap between the demand and domestic fish production. The annual domestic demand of fish within the state is nearly 6.42 lakh tons, against the present annual production of around 5.87 lakh tons only.

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Assistant Professor, College of Fisheries, Dholi, Dr. Rajendra Prasad Central Agricultural University, PUSA, Muzaffarpur, Bihar-843121 Email id: adita.cof@rpcau.ac.in Bihar is endowed with vast and varied inland aquatic resources viz. rivers, canals, reservoirs, ox-bow-lakes, flood plains (chaur), ponds and tanks. The paradox of fisheries development in Bihar is that while it has large, untapped and under-utilized water resources for aquaculture, there is a large gap between the demand and domestic fish production. The annual domestic demand of fish within the state is nearly 6.42 lakh tons, against the present annual production of around 5.87 lakh tons only. The balance requirement is largely met through supply of fishes from other states especially 38,000 metric tons from Andhra Pradesh. The traditional fish culture, the preponderance of carps, lack of skilled and professional manpower, lack of production, weak extension, flood and drought, multi-ownership of water bodies, siltation of water bodies are the major constraints of fisheries in the state. There is a vastly under-utilized water resource in the state, which presents a large scope for expansion of fish culture. Bihar is endowed with large water bodies, viz. ponds (80,000 Ha.), where catch fisheries is popular. Fish production can be substantially increased by popularizing fish culture.


Seed Times January - April 2019

In the ponds of North Bihar, farmers cultured mostly the common carp (Cyprinus carpio) for better production. Common carp, an exotic fish species brought from Bangkok (Thailand), has become integral part of fish culture system in India since 1956. Carp generally spawn in the spring and early summer (February- March) but in north Bihar it may spawn throughout the year, with first peak in JanuaryMarch and second in July-August. However, the existing common carp stock is having disadvantages of early sexual maturation (<Six months) and spawning in grow-out ponds before attaining marketable size (at a weight of ~100 g). This has resulted in poor growth due to competition for food, space etc. with new recruits and as a consequence give poorer yield. The Gonado Somatic Index (GSI) can also exceed 20% of the harvested weight. For quite long, need was being felt to remove this constraint but unfortunately the selective breeding program on this fish also failed to yield desirable results.

Fresh approach on assessment of growth potential of its ‘Amur’ strain in Indian conditions and positive outcomes have provided golden opportunity for improving its contribution in different fish culture systems being practiced in the country. An improved strain of wild common carp of Hungarian origin is known as Amur carp (Basavarajuet al., 2015).

To address this problem, a comprehensive study was undertaken to assess the present genetic status of existing common carp stocks and develop appropriate strategies for stock improvement of this species under Department of International Development (DFID)- Aquaculture and Fish Genetic Research Program. In this program, common carp stocks from different geographical origin viz. Hungary (Amur and P3), Vietnam (SV), Indonesia (RJ) and India (FRS and LBRP) were evaluated in different culture systems and environments to initiate a breeding program for identifying an improved stock with faster growth rate and delayed maturity. The study over a period of six years revealed that the Amur strain performed consistently superior to all other stocks and crosses including local stocks in all the trails across all the culture systems and environments. The increase in weight of Amur over local stocks ranged from 13.2% to 50.1% with a mean increase of 27.3%. After rigorous evaluation and protocols, Amur carp (Cyprinus carpiohaematopterus) has been released by KVAFSU for commercial production and supply of its seed to hatcheries for multiplication purpose and to farmers for growout purpose. Fresh approach on assessment of growth potential of its ‘Amur’ strain in Indian conditions and positive outcomes have provided golden opportunity for improving its contribution in different fish culture systems being practiced in the country. An improved strain of wild common carp of Hungarian origin is known as Amur carp (Basavarajuet al., 2015).

Salient features Amur carp are late maturating (first spawning at the end of first year), fast growing (~27% faster than other carps) has similar food habit to that of existing stock and accept artificial feed, body is slender and belly is smaller, not susceptible for diseases, better reproductive potential, better motility, fertility and hatching percentage (Sharma, 2017), relatively low fat content and its viability is also good, spawns throughout the year (Basavaraju et al., 2013).Amur carp has been characterized by remarkable food conversion rate and exquisite ability to utilize natural food (FAO, 2018). Doubling the Farmers’ Income 19


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Habitat and biology

During induced breeding, after hormonal treatment carp release their ripe eggs within a much shorter period, which makes stripping possible. The quality of released eggs is 100 to 230 g/kg body weight.

Amur carp live in the middle and lower streams of rivers, in inundated areas and in shallow confined waters, such as ponds, lakes, oxbow lakes and water reservoirs. They are mainly bottom dwellers but search for food in the middle and upper layers of the water body. The ecological spectrum of carp is broad. Best growth is obtained when water temperature ranges between 230 C and 300 C. The fish can survive cold winter periods. The optimal pH range is 6.5-8.5. The species can survive low oxygen concentration (0.3-0.5mg/ lire) as well as super saturation. Carp are omnivorous, with a high tendency towards consumption of animal food, such as water insects, larvae of insects, worms, mollusks and zooplankton. Zooplankton consumption is dominant in fish ponds wherever the stocking density is high.The farming of carp is based on the ability of the species to simply accept and utilize cereals provided by the farmers. The daily growth of this species can be 2 to 4 percent of body weight. Carps can reach 0.6 to 1.0 kg body weight within one season in the polyculture fish ponds of subtropical/tropical areas. Growth is much slower in the temperate zone and the fish reach 1 to 2 kg body weight after 2 to 4 rearing season. During induced breeding, after hormonal treatment carp release their ripe eggs within a much shorter period, which makes stripping possible. The quality of released eggs is 100 to 230 g/kg body weight. The eggs shell becomes sticky after contacting water. Spawning becomes easier on nests, breeding Hapa containing aquatic weeds and inundated grass in tanks and ponds etc. The embryonic development of carp takes about three days at 20-230C. Under natural conditions, hatched fry stick to the substrata. About three days after hatching the posterior parts of the swim bladder develops, the larvae swim horizontally and start to consume external food with a maximum size of 150180 Âľm.

Rearing of Amur carp fish seed for raising brood stock A 0.08 ha pond is prepared for rearing of 5000 Nos. fry. Guidelines for Water Quality Parameters for carp growth are as follows:

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pH: 7.3

Dissolved Oxygen: 5.0 mg/litre

Carbon dioxide: 12 mg/lit

Total alkalinity: 140 mg/lit

Phosphate: 0.008 mg/lit

Conductivity: 0.405 mho/cm


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The following inputs are applied for optimum aquaculture production before the release of Amur carp fry to the pond: Urea: 2 kg

Single Super Phosphate: 3 kg

Raw Cow Dung: 2 basket/7 days Fish fed with Groundnut Oil Cake power 100 gm+ Rice Polish 100 gm twice a day. Gradually, based on increase in weight of the fish stock, quantity of the fed is applied @ 2-3% per kg body weight.

Breeding and Seed production of Amur carp After rearing for a period of one year, the healthy brood fishes are selected, male and female fishes are segregated and kept in 2 different hapa. The induced breeding is done by applying hormone in 2 separate doses to male & female. For female 0.2 ml/kg body weight and for male 0.1 ml/kg body weight is applied respectively. 4-6 hours after injection, the female and male started releasing ova and milt respectively. Water hyacinth is placed inside the rectangular size breeding hapa fixed with bamboo poles for breeding and shelter of the brood fishes. Fertilization is completed within 12-18 hours and hatchlings start producing within 36-48 hours from the spawn. After 96-120 hours, hatchlings become active and are transferred to the nursery ponds. When the spawn is 4 to 5 days old, they are stocked in nursery ponds. Shallow, aquatic weed free drainable ponds of 0.5 to 1.0 ha are the most suitable for carp nursing. Nursery ponds should be prepared before stocking to encourage

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the development of a rotifer population, since this constitutes the primary food of feeding fry. GNOC should be soaked under water in an aluminum hundi for 1-2 nights and may be mixed with raw cow dung on 1 day ahead of stocking of fry. The stocking density is 100-400 fry/m2. The length of the nursery period is 3 to 4 weeks and the survival rate from spawn to fry is 40-70%. The production of carp fingerlings usually takes place in semi-intensive ponds, supported with manure generated natural food and supplementary feeding. Stocking nursed fry is the most successful way for producing medium and large size fingerlings. Depending on the required final size of fingerlings, 50,0002,00,000 nursed fry/ha can be stocked in temperate zones, preferably in polyculture system where the proportion of Amur carp is 20-50 percent.

Figure 1: Breeding technology of Amur carp

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The Amur carp has greater practical significance in low-input aquaculture systems due to its better growth performance than the other strain.So, if Amur carp is cultured in large scale, a high profit will be obtained which will augment fish production and nutritional security. This will help to create gainful employment for fish farmers and improve availability of cheap protein source for rural population. This will ensure livelihood promotion and income stability in rural areas in addition to the nutritional security and diversity of the rural population.

Conclusion In temperate zones, one summer old fish (20-100g) must be reared up to 250-400 g in the second year. The stocking rate is 4000-6000/ha, plus about 3,000 chinese carp/ha, if only cereals are fed. The stocking rate can be much higher (up to 20,000/ha) if cereals and pelleted feed also used. The daily rate of feeding is approximately 3-5% of body weight. Carp culture may be integrated with animal farming and plant production. Integration may be direct (animals above fish ponds), indirect (wastes of animals are utilized in the ponds as manure), parallel (rice-cum-fish), or sequential (fish production between crops). The successive cycling of fish/animal/legumes/rice (in 7 to 9 year cycles) is appropriate for considerably decreasing the environmental loading of intensive aquaculture. Since Amur carp burrow in the pond bottom, have a broad environmental tolerance and an omnivorous feeding habit they are a key species in integrated systems.The Amur carp has greater practical significance in low-input aquaculture systems due to its better growth performance than the other strain.So, if Amur carp is cultured in large scale, a high profit will be obtained which will augment fish production and nutritional security. This will help to create gainful employment for fish farmers and improve availability of cheap protein source for rural population. This will ensure livelihood promotion and income stability in rural areas in addition to the nutritional security and diversity of the rural population. A vibrant fisheries sector will add to the state economy and help to strengthen rural economy. Amur carp has been included as major candidate species for raising brood stock as well as production and dissemination of quality fish seed to various stated of the country. It may constitute the incorporation of improved fish strains for enhancing the production and profitability of farmers and helpful for doubling farmers income.

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Seed Times Seed September Times January - December - April 2019 2018

Doubling Farmers’ Income through Seed Production Mrinali Mandape PhD Scholar, Division of Seed Science and Technology, ICAR-Indian Agricultural Research Institute, New Delhi-110012 *mrinalimandape@gmail.com

The Prime Minister’s Office declared an ambitious target of “Doubling Farmers’ Income by 2022” as soon as the new government regime came to power. Undoubtedly now, doubling farmers’ income is going to be a herculean task as the fact states that Indian farmers’ income has increased only 3 folds in the past 30 years (19832013) on constant price.

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The current population (2018) of the country is 1.36 billion which is expected to be 1.51 billon by 2030. Keeping inview the amount of food required to feed world’s largest population, the Prime Minister’s Office declared an ambitious target of “Doubling Farmers’ Income by 2022” as soon as the new government regime came to power. Undoubtedly now, doubling farmers’ income is going to be a herculean task as the fact states that Indian farmers’ income has increased only 3 folds in the past 30 years (1983-2013) on constant price. National Sample Survey Organization (NSSO) conducted 70th round of national survey entitled Situation Assessment Survey of Agricultural Households in 2013 and provided estimates of farmers income from various sources including that of agriculture. According to the report, average annual income from farm and non-farm sources has been Rs. 77,112 out of which 60 percent was from farm activities like crop cultivation, dairy and livestock rearing and rest 40 percent from non- farm activities like daily wages, small businesses and salary. Approximately 80% of the low-income marginal farmers are concentrated in eastern (58%) and western (21%) parts of India that have been laggards in agricultural development on account of several factors, such as under-investment in agricultural research, poor infrastructure (electricity, markets, roads), under-development of institutions (credit, extension, insurance) and a lack of


Seed Times January - April 2019

High quality improved seed is a pre-requisite to achieve maximum outputs and good returns to farmers. Moreover, it acts as an improved technology in agriculture. Sowing good quality seed leads to lower seed rate, better plant emergence, more uniformity, vigorous early growth, enhanced resistance to pest and disease attack, less weeds, more yield by 5-20% and less replanting. High seed quality is a complex trait and pertains to high germination percentage, high genetic purity, high physical purity, high planting value, freedom from pest and diseases, freedom from weed seeds and other crop seeds.

complementarity among these (Pushpa et al., 2018). Thus, the ambitious goal of doubling farmers income would require targeted interventions and identification of strategies for farmers especially medium scale and marginal specifically in the eastern and western states (Birthal et al., 2015). India’s net cropped area has stagnated for quite some time, which clearly implies limited scope for income growth through area expansion. The recourse, thus, needs to be with prospects for income growth by raising cropping intensity, reducing inefficiency in production, and diversifying production portfolio towards highvalue crops and animal production (Pushpa et al., 2018). High quality improved seed is a pre-requisite to achieve maximum outputs and good returns to farmers. Moreover, it acts as an improved technology in agriculture. Sowing good quality seed leads to lower seed rate, better plant emergence, more uniformity, vigorous early growth, enhanced resistance to pest and disease attack, less weeds, more yield by 5-20% and less replanting. High seed quality is a complex trait and pertains to high germination percentage, high genetic purity, high physical purity, high planting value, freedom from pest and diseases, freedom from weed seeds and other crop seeds. The National Agricultural Research System along with Indian Seed Industry has played a significant role in seed production of many crops and ensuring the timely availability of seeds to the farmers in order to generate their interest to go for seed production over commercial crop production. Nevertheless, adequate quantity of quality seed at appropriate time and affordable cost needs to be made available to every farmer for bringing about radical change in agricultural scenario in the country and doubling farmers’ income. Although, significant advancements have been made in India with respect to production technologies and quality evaluation of seed but it may not be at place at the same pace in many developing countries.

Guaranteeing Genetic Purity Genetic purity is one of the most important quality attributes which refers to the true-to-type or genuineness of variety. When seed possesses the genetic composition that a breeder has claimed for or the genotype indicated, it is said to be genetically pure. Deterioration in the seed genetic purity may take place during seed multiplication and distribution cycle leading to proportionate decrease in its performance. Therefore, it is a necessity to ensure the genetic purity for enhancing seed production with methods like use of ‘taxonomic keys’; laboratory experiments viz; phenol test for wheat, seed coat peroxidase test for soybean, KOH bleach test for sorghum, Ferrous sulphate colour test for paddy, Alkaloid test for Lupinus, Electrophoresis, PAGE, SDS-PAGE, chromatography of fatty acids, use of molecular markers; field experiments like Grow-Out-Test and Field-Plot-Test.

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Guaranteeing Physical Purity

Contribution of agriculture in the GDP of SAARC countries is 16-30% with a Seed Replacement Rate at 1030%, more specifically 30% in India. In order to overcome this situation, a rolling plan of the government needs to be floated where targets should be fixed to cover the area under quality seed.

Physical purity refers to physical composition of the seed lot and freedom from dockage. Seed lot is composed of pure seed i.e seeds of same kind, inert matter, broken grains, soil and dust particles, chaff, weed seed and other crop seeds. Higher the content of pure seed, better would be the seed quality. Physical purity components are interpreted as pure seed which include intact seed units and pieces of seed units larger than one-half of the original size. Broken and cracked seeds, immature and shriveled seeds, empty seeds of Compositae family, insect damaged seeds, sclerotia and nematode galls all account for seed impurity which need proper cleaning and purity separations. Cleaning of seed lots can be done in three essential steps viz; preparing seeds for basic seed cleaning i.e. pre-conditioning, basic cleaning through Air Screen Machine, upgrading quality of cleaned seed. Cleaned seed lot is a must in ensuring greater seed production.

Improving the Seed/Varietal Replacement Rate Due to huge demand-supply gap, India suffers from a dismal Seed Replacement Rate (SRR). In few states it is as low as 5% across the crops which are a very big challenge to the seed industry and Indian agriculture. Contribution of agriculture in the GDP of SAARC countries is 16-30% with a Seed Replacement Rate at 10-30%, more specifically 30% in India. In order to overcome this situation, a rolling plan of the government needs to be floated where targets should be fixed to cover the area under quality seed. Another hurdle is dominance of very old varieties in the seed chain which needs policy intervention. The public sector has been limited to produce quality seeds of only low value food grain crops; while private sector since it was allowed to enter into market has focused on high value crops. Undoubtedly, private sector can reach more rapidly to the unreached areas but the cost of their seed is much higher in comparison to that of public sector seed. There should be some mechanism to have control over the cost of seed of private sector seed companies too so that small and marginal farmers can also procure the seed and it will definitely help in enhancing the SRR.

Promoting Export Import With India’s LPG regime of 1991, seeds started moving out of the country’s boundary as trade was opened however, the trade surged up only after Export Import Policy, 2002-2007. With the seed and agricultural research held in fewer hands, the global food supply is vulnerable to the whims of market maneuvers, thus there is felt need for higher participation by private seed companies, NGOs/Civil Society Organizations and Seed Cooperatives. USDA concluded in its recent study that reduced competition in the market is associated with reduced research and development, paying stone for more GDP contribution to the R&D in India. Today, top 10 seed companies control more than half

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Seed Times January - April 2019

The bees are reported as marvelously coevolved pollen transferring devices for Brassicas, the pollination potential and economic importance of the effect of honeybees on these vegetables still needs to be established. There are reports that placing of 3-5 bee colonies of Apisceranaindica/ acre of crop have increased the seed yield in sunflower by 79%, mustard by 55%, niger by 33%, sesame by 15%, safflower by 64%, cotton by 18%, litchi by 20%, coconut by 40%, and gourd crops by 20%.

of the world’s commercial seed sales. Amongst top 10 players in the global seed industry, only top 6 players have a turnover of around 3.6 times of remaining 7 players. With a global market of approximately US$ 50 billion per annum, the commercial seed industry is relatively small when compared to pesticide market. It is conservatively estimated that top 10 companies control 62% of global seed trade. In decreasing order Monsanto-Bayer › Corteva › Syngenta+ChemChina › Group Limagrain › Land O’Lakes › KWS › DLF › Sakata Seeds › Takii Seeds › RijkZwaan hold the global shares. African and Asian countries are new areas for many seed companies for expanding their seed business (Food and Agribusiness Research Management, Yes Bank Report 2015). Amongst Asian countries Malaysia, Myanmar, Pakistan, Sri Lanka and African countries like Ethiopia, Ghana, Kenya, Nigeria, Togo, Sudan, Angola and Tanzania are good seed destinations which would help Indian farmers in doubling their incomes. For trade acceleration and food security, seed trade in SAARC and beyond SAARC countries have a very high potential.

Enhancing Pollinator Activity Bees are the most effective pollinators of crops and natural flora and are reported to pollinate over 70 percent of the world’s cultivated crops. Research has shown that pollination by honey bees increase fruit set, enhance fruit quality and reduce fruit drop in apple (Dulta and Verma, 1987).In a research finding it has been found out that pollination by insects is inevitable for Brassica, since they are generally incompatible (Sihag, 2001) and the pollen is heavier and sticky, which is unable to be easily wind borne. Even though, the bees are reported as marvelously coevolved pollen transferring devices for Brassicas, the pollination potential and economic importance of the effect of honeybees on these vegetables still needs to be established. There are reports that placing of 3-5 bee colonies of Apisceranaindica/ acre of crop have increased the seed yield in sunflower by 79%, mustard by 55%, niger by 33%, sesame by 15%, safflower by 64%, cotton by 18%, litchi by 20%, coconut by 40%, and gourd crops by 20%. In an experiment conducted by KVK, Vaishali, (DRPCAU, Pusa), two honeybee colonies of Apis mellifera containing approximately 10,000 bees in a bee box were kept inside the net house to aid the pollination. The honeybees (A. mellifera F.) were reared in Langstroth boxes of size 50x40x30 cm at the KVK demonstration unit. Results showed that bee colony was placed inside the net house, their numbers inside the net house was found to be higher resulting in higher number of pods per panicle and higher seeds per pod and overall seed yield in the net house when compared to open field conditions. The thousand seed weight was also reported to be 3.64g and 3.21g in honeybee pollinated and natural crop, respectively (Devkota et al.,2003). Thus, for doubling farmers’ income, we need to ensure better pollinator activity and conservation of pollinators in phase of climate change.

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Well tested GM Technology Transparent procedures for testing, clearance and monitoring of GM crops will help in faster approval of potential materials.

Increasing demand of organic products has led to the demand for seed production of such crops. Though in a few states like Rajasthan, the State Seed Certification Agency has been re-designated to empower it for certification of organic seed production, yet no consensus seed and field standard for organic seed production have been laid out. Exploring North East region of India for organic seed production in vegetables, and cereals would be a fruitful strategy.

28 Doubling the Farmers’ Income

Despite controversy Genetically Modified (GM) seeds are gaining considerable market share. This is evident from the fact that the market for biotech seed traits has shot up from $280 million in 1996 to $4700 million in 2004 further three-fold in 2017-18. Except Bt-Cotton no other crop has been allowed for commercial adoption amongst field and vegetable crops. Keeping the global trend of release of more and more GM products and challenge of meeting projected targets of agricultural production in the country, it is crucial to think over issues of bio-safety, hazards/benefits of GM technology on human health. Also, the field and seed standards need to be defined for facilitating the seed production of GM crops. As suggested by several biotechnology experts, Biotechnology Regulatory Authority of India (BRAI) needs to be made operational urgently. A regulatory system needs to be made highly efficient and full proof so that release process is not slowed down. Proper yield trials as suggested by formerEnvironment Minister, Dr. Jairam Ramesh need to be done before actual release of GM crops. Transparent procedures for testing, clearance and monitoring of GM crops will help in faster approval of potential materials. In 2004, Pioneer/DuPont earned 50% of its seed revenues from varieties that include a genetically modified trait. The market for biotech seed trait has shot up from $280 million in 1996 to $4,700 million in 2004, a 17fold increase over past nine years.

Organic Seed Production Government of India has implemented National Programme for Organic Production (NPOP) for which APEDA is the nodal agency. It involves accreditation programme for certification, standards for organic production, promotion and organic farming etc. Increasing demand of organic products has led to the demand for seed production of such crops. Though in a few states like Rajasthan, the State Seed Certification Agency has been re-designated to empower it for certification of organic seed production, yet no consensus seed and field standard for organic seed production have been laid out. Exploring North East region of India for organic seed production in vegetables, and cereals would be a fruitful strategy. Use of organically produced seeds for organic production needs to be scientifically validated with respect to the residual effect of various chemicals used on commercial production chain. With the increasing awareness in the importance of nutrition and sustainable ecosystems, organic produce has started to fetch more money in the markets across globe thus, it is a sure shot deal for doubling the farmers’ income.

Market-led Seed Production According to the CEO, NITI Aayog, Amitabh Kant, the next revolution in agriculture would come by marketing and processing. Opening of the national e-platform named e-NAM (National Agriculture Market) on 14th April,2016


Seed Times January - April 2019

for marketing of farm produce in countrywide market has made it easier and more remunerative for farmers to earn better returns. It is not only a platform for online trading in commodities, but helps market in better price discovery. The e-NAM market transaction stood at Rs. 36,200 Cr by January 2018, mostly intra-market. Over 90 commodities including staple food grains, vegetable and fruits are currently listed in its list of commodities available for trade. Lack of market information/market intelligence in this area is a bottleneck in accuracy of business planning of seed as an industry. There is a scope of inclusion of quality seeds into the list of commodities available for trade which may ensure higher returns and better price to the seed produce to growers.

Climate Smart Seed Production The impact of climate change is unprecedented and has caused massive crop losses to farmers and seed growers in the recent past. Sudden rise and fall in temperature in conventional seed production areas is a serious issue which alarms for searching an alternative site for climate smart quality seed production.

Erratic rainfalls and frequent fluctuations in temperature have made the conventional seed production sites unfit or less remunerative in terms of production and quality of seed. The impact of climate change is unprecedented and has caused massive crop losses to farmers and seed growers in the recent past. Sudden rise and fall in temperature in conventional seed production areas is a serious issue which alarms for searching an alternative site for climate smart quality seed production. Likewise, the storage facilities now need climate resilience viz; cold storages, seed vaults etc. for keeping seed quality intact.

Empowerment through Group: FIGs and FPOs Government of India has provisioned to formulate Farmer Interest Groups (FIGs) and Farmer Produce Organizations (FPOs). There are about 847 registered FPOs in India. Seed production through participatory/community partnership mode has a much higher potential than performing the business individually for a simple principle based on Compact Area Approach.This approach makes seed handling and delivery easier, drastically reduces varietal admixtures and impurities, ease in seed certification, better mechanization, higher genetic and physical purity and ultimately greater return on investment and cost of cultivation which would ensure doubled farmers’ income in the years to come.

References Agrawal RL (1997) Seed Technology, 2nd Edition. Oxford & IBH. Amitabh Kant, CEO, NITI Aayog. India’s employment scenario: Understanding the true picture. http://www.business-standard.com/article/opinion/india-semployment-the-true-picture-119020501601_1.html. Birthal P S, Kumar S, Negi D S, Roy D (2015). The impacts of information on returns from farming: evidence from a nationally representative farm survey in India. Agricultural Economics 46. 549–561. Doubling the Farmers’ Income 29


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Devkota F R, Upreti G, Thapa R B, Shakya, S M and PratapU (2003). Impact of Honeybee Pollination on Productivity and Quality of Broccoli Seed under Chitwan Condition. Journal of Institute of Agriculture and Animal Sciences 24:859. Dulta PC, Verma LR (1987) Role of insect pollinators on yield and quality of apple fruit. Indian JHort 44:274–279. Food and Agribusiness Research Management (FARM), YES BANK. Supported by National Seed Association of India (NSAI) and Nuziveedu Seeds for industry information. February 2015. INDIAN SEED INDUSTRY Connecting with Farmers for over 50 years. https://www.yesbank.in/pdf/indian_seed_industry_connecting_with_farmers_for_over_50_years.pdf Pushpa S, Singh, K M and Shahi, B(2018) Doubling Income of Cauliflower Seed Producer Farmers of Vaishali District through Pollination Service by Apis mellifera Colonies. International Journal of Current Microbiology and Applied Sciences ISSN: 2319-7706 Special Issue-7 pp. 5242-5249. Sihag R C(2001). Why should bee-keeping be utilized as an input in agriculture? Current Science, Vol. 81, 1514-16. Vasudevan S N (2015) Seed Word: A glimpse. Department of Seed Science and Technology, University of Agricultural Sciences, Raichur. pp 89.

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Seed Times September - December 2018

Strategies for Doubling the Farmers’ Income in India Tabassum PhD Scholar, Department of Genetics and Plant Breeding, College of Agriculture, GBPUAT, Pantnagar, US Nagar-263145, Uttarakhand tabassum12081992@gmail.com There is need of convergenceof agricultural science with new technologies and focus should be on the involvement of unemployed adults/youth in rural areas in skilled low budget, non-crop activities which will helps to generates additional income. This measure will prevent the migration of poor villagers toward towns in search of work. They will become self sufficient to earn their livelihood.

Farmer, the unsung heroes never get proper attention. We never pay due respect to the “Jai Kisan”. We never recognize their worth in our life. We never notice that they are real “Annadatas”. Now India has set a very ambitious target of doubling the farmers’ income by 2022. The Indian economy is largely based on agriculture, with around 55% of the population dependent directly or indirectly for their livelihoods on agriculture and allied sectors that generate 15% Gross Value Added. India has to come up with new ideas to work with farmers and empower them with new scientific knowledge as well as new technology for strengthening them. The first question strikes in our mind is “how we do?” For this we must set our targets on priority basis. There has been considerable expansion and changes in the research and extension system but the key questions remain: “Is this sufficient to Double Farmers’Incomes by 2022? Is there a need for a different mindset to ensure that agricultural science empowers the farmers to reach their full economic potential? Can such be achieved while delivering food to the nation?’

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There is need of convergenceof agricultural science with new technologies and focus should be on the involvement of unemployed adults/youth in rural areas in skilled low budget, non-crop activities which will helps to generates additional income. This measure will prevent the migration of poor villagers toward towns in search of work. They will become self sufficient to earn their livelihood. For doubling farmers’ incomes, the focus must be on lowering input cost and ensuring high output in forms of production and productivity per unit of area with increase probability of more profit generation. An interesting experiment was done by a private foundation in Itarasi, U.P. also known as “Itarasi Model”. They developed a small scale poultry farming around the village of Itarasi through which poor households are able to generate Rs. 50,000.00 additional income. Likewise, in Uttarakhand and Himanchal Pradesh, Mushroom cultivation is like a boom for local residence and checked migration significantly. These are the few strategies for improving growth in farmers’ income as well as Source of income: A) Technology based: Farm mechanisation in India has been a story of tractorisation. Time has come to promote efficient equipments, tools and small engine driven tractors to address small farmers’ requirement adequately. It should be economic and easy availability. •

Use of Solar system-based irrigation pump which help in self dependency as well as reduce electric bill. Encourage the use of quality irrigation pipes and sprinklers system so that we can reduce the water requirement as in case of flood irrigation system.

There should be Good Weather forecasting Models and a strong communication system like online and telecom facility via Kisan Call Centre and Kisan Suvidha App.

B) Research based Improve Agricultural and management practices:

There is need to devise ways to lower the cost of production and reduce the risks involved in agriculture such as pests, pathogens and weeds; there is a need to improve productivity; Enhance the production of Vegetables and Fruits also

Encourage the farmers, to go with the Integrated Pest Management practices, organic farming, adaptation of proper agricultural package, cultural practices, crop intensity and integrated farming system Seed replacement rate, Post-harvest strategy, cold storage chamber and Value addition practices. Also encourage them for less use of Pesticide, Herbicide and Inorganic Fertilizers, •

Agronomic Principles:

Besides genetic principles of seed production, there involves the application of the following agronomic principles for the production of good quality seeds. Selection of Suitable Areas for Seed Production The areas for seed production are based on climatic factors which ensure a relatively satisfactory environment for vegetable seed production. These factors include rainfall, light intensity, temperature and wind velocity.

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Selection of Variety The selection of a right variety is very important for a successful seed production.

Source of Seed The seed used for raising a seed crop should be of known purity, appropriate class and invariably obtained from authorized official agency

Seed Treatment Seed treatment refers to the application of fungicide, insecticide or a combination of both to seeds so as to disinfect and disinfest them from seed borne or soil-borne pathogens and storage insects.

Better Agronomic Management Best possible agronomic practices should be adopted for raising the healthy seed crop. Timely seed sowing, optimum plant population and optimum irrigation are some of the agronomic practices are to be followed for obtaining higher yield and better quality of seeds.

Insect and Disease Management Pest and disease infestation not only reduces the seed yield but also damages the quality. So appropriate disease and insect control is very important in raising healthy seed crops.

Harvesting, Drying and Storage of Seeds Harvesting of seed crop must be done at the time that allows both the maximum yield and the best quality seeds considering various maturity indices. In general, the seeds are harvested when their moisture content is about15-20%. In order to preserve seed viability and vigour it is necessary to dry seeds to safe moisture content level. The drying of seeds may be done by sunlight, chemical desiccants and by mechanical driers. For short period storage clean and dried seeds should be filled in neat and clean sacks or bags and stored in a clean, cool go down. •

Use of Quality Seed, Production and Maintenance: •

Qualities of Good Seeds: Seeds are the basics requirement for growing a crop and it is very necessary for the farmers that his seed should be: –

Genetically pure:

Physically pure

Physiologically viable

Free from insect pests and diseases

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Seed Times January - April 2019

Quality Seed Production: Production of genetically pure and quality seed requires high technical skill and specialization. Seed production must be carried out under standard and well-organized conditions. The producer should be familiar with genetic as well as agronomic principles of seed production.

Genetic Principles: During the course of seed production, it is necessary to ensure that the product is true-totype. Genetic purity of a variety can deteriorates due to several factors during production cycle. The important factors of apparent and real deterioration of varieties are follows as suggested by Kadam (1942):

Developmental variations

Mutations

Minor genetic variation

Technique of the plant breeder

Mechanical mixtures

Natural crossing

Selective influence of diseases

Use of Quality Seed, Production and Maintenance: •

Qualities of Good Seeds: Seeds are the basics requirement for growing a crop and it is very necessary for the farmers that his seed should be: –

Genetically pure:

Physically pure

Physiologically viable

Free from insect pests and diseases

Free from seeds of weeds and other crops

Quality Seed Production: Production of genetically pure and quality seed requires high technical skill and specialization. Seed production must be carried out under standard and well-organized conditions. The producer should be familiar with genetic as well as agronomic principles of seed production.

Genetic Principles: During the course of seed production, it is necessary to ensure that the product is true-totype. Genetic purity of a variety can deteriorates due to several factors during production cycle. The important factors of apparent and real deterioration of varieties are follows as suggested by Kadam (1942): •

Developmental variations

Mutations

Minor genetic variation

Technique of the plant breeder

Mechanical mixtures

Natural crossing

Selective influence of diseases

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Of these, mechanical mixture, natural crossing and selective influence of diseases is perhaps the most important reasons of genetic deterioration of varieties during seed production followed by raising the seed crops in areas outside their adoption which may cause developmental variations and genetic shifts in varieties.

Maintenance of Genetic Purity:

For the maintenance of varietal purity various methods have been suggested by Hartman and Kester (1968). The important safeguards for maintaining genetic purity during seed production are:

Control of Seed Source: The use of seed of an appropriate class and from an approved source is necessary for raising the seed crop.

Crop Rotation: Satisfactory intervals between related or similar crops is required to minimize the risk of plant material or dormant seeds remaining from the previous crops, which are likely to cross-pollinate or make admixture with the planned seed crop.

Isolation: One major factor during the course of seed production is to ensure that the possibility of crosspollination between different cross-compatible plots or fields is minimized. In addition to the question crosspollination, adequate isolation also assists in avoiding admixture during harvesting and the transmission of pests and pathogens from alternative host crops. Seed crops can be isolated by two methods i.e., Isolation by Time, Isolation by Distance

Rouging of Seed Crop: Rouging refers to the removal of off-type plants. Off-types refer to those plants that are not true to the type, diseased and abnormal plants. The numbers of rouging’s required for the seed crop will vary according to the kind of vegetables, purity of the seeds sown, nature of the previous crop, etc. In general, the cross-pollinated vegetable crop for seed production should be thoroughly rogued before flowering. Regular supervision by trained manpower is important.

Seed Certification: Seed certification implies that the crop and seed lot have been duly inspected and that they meet requirement of good quality seeds. To achieve this purpose, qualified and well-trained personnel of seed certification agencies carry out field inspections at appropriate stages of crop growth. They also make seed inspections to verify that the seed lot is of the requisite genetic purity and quality. The field standards include land requirements, isolation requirements, maximum permissible off-types, etc.

Grow-out Tests: Varieties being grown for seed production should periodically be tested for genetic purity by grow-out tests to make sure that they are being maintained in their true form.

C) Additional Income generation: Additional income can be generated by skilled development training through NGOs, and Extension workers. The DFI Committee goals the “growth targets” for doubling farmers’ real income while improving the ratio between farm and non-farm income from 60:40 as of now, to 70:30 by 2022, by: a) Adopting a “demand-driven approach” for efficient monetisation of farm produce and to synchronise the production activities in Agriculture & Allied Sectors. b) Improving and optimising input delivery mechanism and overall input efficiency [technologies, irrigation methods, mechanisation, Integrated Pest Management (IPM), Integrated Nutrient Management (INM), farm extension services, adaptation to climate change, integrated agri-logistics systems, Integrated Farming Systems Approach, etc.].

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c) Offering credit support at the individual farmer and cluster levels for Dairy, Poultry, Goat & Pig Farming, Mashroom Production and Bee keeping. d) Strengthening linkages with MSMEs (micro, small and medium enterprises), so as to accelerate growth in both farm as well as non-farm incomes along with employment creation. Farmers’ income is directly related to cost of agricultural production (including input costs) and profitable monetisation of the agricultural produce, through effective market linkages. The DFI Committee report deliberates upon specific economic activities and topics that have a durable impact on farmers’ income increase, some of which are categorised as follows: i.

Demand Driven Agricultural Logistics System for post-production operations such as produce aggregation, transportation, warehousing, etc.

ii.

Agricultural Value System (AVS) as an integration of the supply chain and to drive market led value system – District level, State level and National Level Value-System Platforms to promote individual value chains to collaborate and integrate into a sector wide supply chain.

iii. Farmer - Centric National Agricultural Marketing System by restructuring of the marketing architecture and networking of Primary Rural Agriculture Markets (22,000) and wholesale markets to facilitate Pan-India market access; as also integrating the domestic market with export market. iv. Developing Hub and Spoke System at back-end as well as front-end to facilitate and promote an AVCS (which includes input providers, farmers, transporters, warehousing, food and agro-processors, retailers). v.

Marketing Intelligence System to provide demand led decision making support system - Forecasting system for agricultural produce, supply and demand, and crop area estimation to aid price stabilisation and risk management.

vi. Promoting Sustainable Agriculture – Conservation Agriculture, Climate Resilient Agriculture, Rainfed Agriculture, Ecology Farming, Watershed Management System, Integrated Farming System, Agro-Climatic Regional Planning, Agricultural Resources Management and Micro-Level Planning, etc. vii. Effective Input Management achieving Resource-Use-Efficiency (RUE) and Total Factor Productivity (TFP) – Water, Soil, Fertilisers, Seeds, Labour-Farm mechanisation, Credit and Precision farming, so as to reduce farm losses. viii. Enhancing Production through Productivity – to achieve & sustain higher production out of less and release land and water resources to diversify into higher value farming for enhanced income. ix. Farm Linked Activities including secondary and tertiary sector activities of MSME scale, for promoting near-farm and off-farm income generating opportunities as well as to facilitate that more of the produce captures more of the market value. x.

Agricultural Risk Assessment and Management including drought management, demand & price forecast, weather forecast, management of biotic stress including vertebrate pests’ access to credit for farmers for farming operations; providing long term credit, post-production finance to preventing distress sale by farmers, and crop & animal risk management through insurance.

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xi. Empowering Farmers through Agricultural Extension, Knowledge Diffusion and Skill Development. xii. Research & Development and ICT for Doubling Farmers’ Income. xiii. Structural and Governance Reforms in Agriculture, including building a database of farmers, facilitating farmer & produce mobilisation, institutional mechanism at district, state & national levels for coordination & convergence, utilising Panchayat Raj Institutions as key delivery channels for transparent and inclusive development. D) Government Policies: •

Financial Aid: Crop insurance schemes (Fasal Suraksha Yojana), MSP: Govt increase the MSP for Rabi 2018-19, Banks loan with low interest rate (Kisan Credit Card service).

Agriculture department activities: R&D through KVKs and extension worker, Stregthen Irrigation Facility by Pradhanmantri Sinchayi Yojana with the aim More crop per Drop; Promotion of Neem Coated Urea; Strong policies on GM crops; Regular check on market prices.

Recently, Niti Aayog came out with its “three-point action agenda”. It put forward four points action plan to double the farmers’ income. These four points includes the following measures: 1)

Remunerative prices for farmers by reforming the existing marketing structure;

2) Raising productivity; 3) Reforming agriculture land policy; and Relief measures.

Conclusion: Government need to take long term steps to ensure the economic viability of farming. Raising productivity, reforming land policies and solving remunerative price mess will require massive amount of public investment and political will. The strong leadership and the good government need to set the vision and enabling policy framework; the private sector should help to deliver on that vision through scalable and inclusive market-based activity; and key stakeholders such as farmers’ organizations, civil society and international organizations combining their resources and expertise. Only through such strong leadership from diverse stakeholders we can create the conditions needed for unlocking the entrepreneurship of smallholder farmers and ultimately boosting their income.

References: http://agricoop.gov.in/doubling-farmers https://niti.gov.in/

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Seed Times Seed Times September January - December - April 2019 2018

Doubling the Farmers’ Income: Core Challenge, Strategy & Way Forward Dr Mohammed Talha1 and Dr Harsha2 1. PhD-Research Scholar, Department of Genetics and Plant Breeding, GBPUAT, Pantnagar, U S Nagar, Uttarakhand- 263145, India 2. Agriculture Officer, Assistant Director office Beawar, Rajsthan mohammedtalha23@gmail.com The training and adoption of latest technology by Indian farmers lags far behind. Expenditure of less than 1% of the agricultural GDP in research shows abysmal investment in research and development. There is a staggering lack of infrastructure across the entire agricultural value chain.

38 Doubling the Farmers’ Income

Introduction Agriculture is source of livelihood to more than 600 million people of the country. With so much of dependence of our country on agricultural income a serious attention is needed in this aspect. With food security firmly in hand, the government’s target to double farmers’ income by 2022 is very critical for well-being of this country.

Core Challenges The majority of Indian farmers are small and marginal, inefficiently resourced, ill-informed on market behaviour, risk prone, loaded with credit and debts and is dependent on traders to reach buyers. To further worsen the problem 60% of population depends on agriculture which contributes only 14% of national GDP. The training and adoption of latest technology by Indian farmers lags far behind. Expenditure of less than 1% of the agricultural GDP in research shows abysmal investment in research and development. There is a staggering lack of infrastructure across the entire agricultural value chain.


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Despite increase in productivity of major corps, it is much lower than that of many countries. The vast rainfed area in the country, particularly drylands, where mostly coarse cereals, pulses and oilseeds are grown are still low yielding. Despite superior nutritional qualities and climate resilience, the area under cultivation of these crops is declining owing to low productivity, high labour intensity, drudgery and lack of attractive farm gate prices. Any positive development in these tracts could lead to better livelihood of farmers. Alkalinity and salinity problems are other challenges affecting about 8 million hectares of land. Another 7 million ha of land in the country is losing its fertility due to water- logging. Besides, the organic matter content of soil is also dwindling in many of the states. The future sustainability of food production is highly vulnerable to climate change, resource degradation as well as water and air pollution. India’s leading states in food production i.e., Punjab and Haryana face multiple environmental problems. Over extraction of ground water, imbalanced use of fertilizers and burning crop residues has both national and global impact. These along with subsidies for energy and fertilizer use and low water efficiency farms, put northern states in the eye of a perfect storm. Therefore, urgent action is needed towards a paradigm shift in Indian agriculture to usher more resource efficient and resilient path.

Strategies for Doubling Farmers’ Income

Due to mono cropping, the crop enterprises are subject to risk and uncertainty and reinventing of the traditional practice is required but in a scientific way. Thus Integrated Farming System is the only solution to generate sustainable income and employment opportunity at farm level besides augmenting per unit land productivity.

The scientific way of crop production based on systematic soil test crop response, integrated plant nutrient system, weather based crop advisory for input application decision is much needed under current scenario. Innovative technologies like protected cultivation practices like shade net cultivation, poly house/ greenhouse cultivation and precision farming should be encouraged to increase crop yields. The renewed scientific efforts System of Rice Intensification (SRI) and Sustainable Sugarcane Initiatives (SSI) are needed to break the yield barrier and increase productivity in agriculture. Fruit cultivation can be revolutionized by the adoption of Ultra High Density Planting and is the fastest way of reducing the gestation period and increasing the productivity of the orchards. Due to mono cropping, the crop enterprises are subject to risk and uncertainty and reinventing of the traditional practice is required but in a scientific way. Thus Integrated Farming System is the only solution to generate sustainable income and employment opportunity at farm level besides augmenting per unit land productivity. The different enterprises that can be integrated with cropping under wetland ecosystem are dairy, fishery, poultry, pigeon, mushroom cultivation and vermicompost. Under irrigated dryland ecosystem along with cropping, dairy, goat rearing, poultry, horticulture, apiary, sericulture and vermicompost are found promising and can be integrated. In the dryland ecosystem, the enterprises viz., cropping, horticulture, agroforestry, rabbit and sheep rearing can be integrated.

Doubling the Farmers’ Income 39


Seed Times January - April 2019

With enhanced water use efficiency area under irrigation can be doubled in the country without requiring extra water. Adoption of irrigation technologies such as micro irrigation and management of water resources and new agronomic practices is required for realising the goal of “per drop more crop”. Agri Markets are fragmented because of area restrictions imposed by APMC and this has had a negative impact on competitiveness. To promote market integration and the creation of a single market resulted in the concept of e-NAM, a pan India electronic market for farm produce. It will result in competition amongst buyers and enhance farmer realization, ensure transparent price discovery and reduce transaction cost. Farmers are adopting contract farming as it lowered the market risk, with the advance commitment to buy farmers’ produce at a pre-determined price and within a reasonable range of quality parameters. Following area wise management strategies can be implemented for efficient input utilization and maximizing farm outputs: Soil health management Recycling of farm waste Organic waste in villages should be converted into organic manure using various compost techniques Strengthening soil health card programmes Promotion of bio fertilizers and micronutrient fertilizers Targeted application of soluble fertilizers Promotion of Low cost Zero/minimum tillage Quality seed and planting material Development of Modern seed processing and storage facility Extensive promotion of new climate resilient area specific hybrids/HYVs in major crops Self-reliance through Participatory seed production programmes Subsidies based on quality seed replacement

40 Doubling the Farmers’ Income


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Water management Application of mulching and micro irrigation systems Drip irrigation in high water demanding crops Cultivation of rice through SRI system Creation of village/farm ponds Adoption of In-situ rain harvesting systems

Weed management Integrated weed management (IWM)

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Plant health management Mass multiplication of biopesticides at farmers level

Horticulture Providing quality material of fruit plant Promotion of intercropping, multi-storey plantation Contractual farming of local medicinal and aromatic plantation Promoting green house/polyhouse for off season cultivation

Farm mechanization Promotion of local manufacturers Adoption of zero/minimum tillage, deep ploughing and raised bed planting techniques Adoption of new weeding equipment’s and minitractors

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Post-harvest management and value addition Village level processing centres and rural godowns Establishment of primary processing centres at taluka level Awareness programmes on price forecasting, high price period and best priced market Popularization of available schemes of the Government Creation of multipurpose market yard with multiple facilities

Today, Indian agriculture stands at a crossroads and the challenges are multifaceted, but at the same time, smart solutions are available that have the potential to increase productivity, enhance climate resilience, and make agriculture climatesmart through proper soil health management, water management, farm mechanization, post-harvest management and value addition. These solutions can be deployed at scale if current farmer support programs are fully aligned with the government’s target to double farmers’ incomes.

THE WAY AHEAD For states such as Punjab and Haryana, the priority in these states should be to shift to high-value agriculture and value addition. Realignment in geographical orientation of the public procurement policy is suggested so as to shift water intensive cropping system to more ecologically suited areas for the cultivation of these staple crops. Adoption of climate resilient agriculture and embracing eco-friendly technologies needed to be done at ground level to see real impact. The current policies which support water, energy and input subsidies and price support for high water demanding crops should be revisited to eliminate vicious circle of resource degradation and move to virtuous circle of rapid and sustainable income growth. Today, Indian agriculture stands at a crossroads and the challenges are multifaceted, but at the same time, smart solutions are available that have the potential to increase productivity, enhance climate resilience, and make agriculture climate-smart through proper soil health management, water management, farm mechanization, post-harvest management and value addition. These solutions can be deployed at scale if current farmer support programs are fully aligned with the government’s target to double farmers’ incomes. To conclude, let us provide the right conditions for farmers to produce more form less, reach markets and become entrepreneurs. That would imply a revolution in the agro & food sector in India and will lead to double the farmers’ income. Doubling the Farmers’ Income 43


Seed Times Seed Times September January - December - April 2019 2018

Realising the Aim of Doubling the Farmers Income Agriculture is the main source of livelihood for more than 58 per cent of India’s population. Since Independence, development of agriculture sector in India has focused primarily on raising agricultural output and improving food security. Transformation of Indian agriculture postGreen Revolution with the adoption of new varieties, effective disease management strategies, new farmerfriendly policies have led the country to become not only food and nutrition secure but also as one of food exporting nations of the world. 44 Doubling the Farmers’ Income

Neetu Thapliyal1 and Deepanker Pandey2 Research Associate, National Seed Association of India Assistant Director, National Seed Association of India * neetuthap1602@gmail.com

1. INTRODUCTION Agriculture is the main source of livelihood for more than 58 per cent of India’s population. Since Independence, development of agriculture sector in India has focused primarily on raising agricultural output and improving food security. Transformation of Indian agriculture post-Green Revolution with the adoption of new varieties, effective disease management strategies, new farmerfriendly policies have led the country to become not only food and nutrition secure but also as one of food exporting nations of the world. Despite that, regular distress and crises in the recent past pose a severe threat to income and livelihood security of farmers. According to the report of DFI Committee, 2017, the average income of an agricultural household from July 2012 to June 2013 was as low as Rs. 6,426, as against its average monthly consumption expenditure of Rs.6,223. Further, 22.50 per cent of the farmers still live below poverty line. The agricultural income when compared to income realized from non-agriculture has been too low, with a wide variation across regions.


Seed Times January - April 2019

Farmers are at the epicentre of the Indian economy and their livelihood upliftment is a step towards holistic development of the nation. The decrease in productivity and income subsequently led to some serious implications on rural household poverty, and other economic, social as well as sustainability indicators (Mellor, 1999).

The annual growth in GVA (Gross Value Added) from agriculture has reduced drastically from 6.9 per cent (2016-17) to a mere 6.7 per cent (2017-18) as indicated by the estimates from the Central Statistics Office’s (CSO). The growth was lower during the April-June 2017 quarter in comparison to real prices indicating the approaching deflation in farm sector (DFI Committee, 2017). As per CSO, the growth in GDP during 2018-19 is estimated at 7.2% and the real GVA is anticipated to grow at 7% in the current fiscal as against 6.5% in 2017-18. Farmers are at the epicentre of the Indian economy and their livelihood upliftment is a step towards holistic development of the nation. The decreasing productivity and income subsequently led to some serious implications on rural household poverty, and other economic, social as well as sustainability indicators (Mellor, 1999). Hence, increasing the prosperity of farmers using innovations factoring in the same holding size and region has now become a priority for policy makers. Revenue earned by a farmer from agriculture is important to address agrarian distress and endorse farmers’ welfare. To achieve the goal of doubling the farmers’ income by 2022, it is essential to promote farmers’ income and to establish equality between the income of farmers and non-farm workers. To improve the economic condition of Indian farmers, the Government has implemented a seven-step path to move forward, first primary focus on irrigation with large budgets, with the aim of ‘per drop, more crop’; second is the provision of quality seeds and nutrients based on soil health of each field; third large investments in warehousing and cold chains to prevent post-harvest crop losses; fourth promotion of value addition through food processing; fifth creation of a national farm market and e-platform; sixth Pradhan Mantri Fasal Bima Yojana (PMFBY) to reduce the possible risks and seventh focus on agriallied activities (Barua et al., 2019). The realization of doubling the income of farmers by 2022 comprising both farm and non-farm income (income from non-agricultural economic activities) requires a compound growth rate of 12.25 per cent per annum seven years from the base year 2016 (DFI Committee 2017). The present report contains the status of farmers’ income across various holding sizes and regions, the challenges ahead, scope and pathways to achieve the goal of doubling the farmers’ income by 2022 through potential drivers.

2. Status of Doubling the Farmers Income 1. Average Monthly Income per Agriculture household During the FY 2012-13 average monthly income per agricultural household was estimated as Rs.6426/- at all-India level. During that period, the net receipt from farm business (cultivation and farming of animals) accounted for 60 per cent of the average monthly income per agricultural household in the country Doubling the Farmers’ Income 45


Seed Times January - April 2019

while nearly 32 per cent of the average monthly income was contributed by income from wages/ salary (NSSO Situation Assessment Survey 2014). The NABARD- All India Rural Financial Inclusion Survey (NAFIS) 201617 showed that average agriculture household income has increased by Rs. 2,505/month in year 2016-17. The income of a farm household was indicated to be Rs. 8,931/ month in 2016-17. 2. Principle source of Income

Cultivation was principal source of income for about 78 per cent for the agricultural households in Rajasthan and Madhya Pradesh. However, livestock was reported as the principal source of income in more than 9 per cent of agricultural households of Tamil Nadu, Gujarat, Punjab and Haryana.

As per the Statement 6 of NSSO Situation Assessment Survey 2014, more than 80 per cent of agricultural households among the major states (Assam, Chhattisgarh and Telangana) reported cultivation as their principal source of income except for Kerala where about 61 per cent of the agricultural households reported to have earned maximum income from sources other than agricultural activities. Cultivation was principal source of income for about 78 per cent for the agricultural households in Rajasthan and Madhya Pradesh. However, livestock was reported as the principal source of income in more than 9 per cent of agricultural households of Tamil Nadu, Gujarat, Punjab and Haryana. According to the NAFIS 2016-17, in all the states cultivation remained a major source of income (34 per cent), followed by daily wage labour (16 per cent), while livestock rearing contributed only 8 per cent of the income of agriculture households. The non-farm enterprises accounted for 6 per cent of the income and the other sources accounted for the rest. 6% 1% 8%

35 %

16 %

34 % Cultivation

Wage labour

Services

Livestock rearing

Non Farm Enterprises

Other Enterprises

Fig 1.1 Source of income of agriculture households in India [NAFIS 2016-17]

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3. Indebtedness of agricultural households In 2014, NSSO Situation Assessment Survey revealed that about 52 per cent of the agricultural households in the country were estimated to be indebted and the average amount of outstanding debt per agricultural household was Rs.47,000/-. The situation was no different in 2016 according to the NAFIS 2016-17, 52.4 per cent of the agriculture households were indebted in 2016 and the average outstanding debt per agricultural households has increased to Rs. 1,04,602. In 2014, among the major states, Andhra Pradesh indicated as one of the most indebted agricultural households in the country (92.9 per cent) followed by Telangana (89.1 per cent) and Tamil Nadu (82.5 per cent). While other states such as Assam (17.5 per cent), Jharkhand (28.9 per cent), and Chhattisgarh (37.2 per cent) indicated the lowest share of indebted agricultural households. The average amount of outstanding loan was the maximum for Kerala (Rs.2,13,600/-) followed by Andhra Pradesh (Rs.1,23,400/-) and Punjab (Rs.1,19,500/-). The states with lowest amount of average outstanding loan in 2014 were Assam (Rs.3,400/-), Jharkhand (Rs.5,700/-) and Chhattisgarh (Rs.10,200/-).

As per the NAFIS 2016-17 survey 41 per cent of rural households was indebted in 2016, of which majority (43 per cent) were agriculture households. Gujarat, Maharashtra, Telangana, Jammu and Kashmir and Himachal Pradesh were the most indebted households.

As per the NAFIS 2016-17 survey 41 per cent of rural households was indebted in 2016, of which majority (43 per cent) were agriculture households. Gujarat, Maharashtra, Telangana, Jammu and Kashmir and Himachal Pradesh were the most indebted households. Average amount of outstanding debt (AOD) for indebted agricultural households is reportedly ` 1,04,602 as on the 201617. Debt outstanding for indebted nonagricultural households is reportedly ` 76,731. Overall extent of indebtedness taking all households combined is reportedly ` 91,407. 4. Income of Agriculture Households At all-India level, average monthly income per agricultural household during the agricultural year July 2012- June 2013 was estimated as Rs.77,112 /(approx.) (NSSO Situation Assessment Survey 2014). As per the estimates from NSSO data, the compound annual growth rate (CAGR) of farmers’ nominal income was 11.8 per cent between 2002-03 and 2012-13. Haryana registered the highest income growth (17.5 per cent) while West Bengal was recorded with the lowest (6.7 per cent). However, the real growth was found to be lower relative to nominal income, wherein, Odisha had the highest CAGR of 8.3 per cent. Livestock contribution resulted in a significant change for the state (Chandrasekhar and Mehrotra, 2016). It was closely followed by Haryana (8.0 per cent), Rajasthan (7.9 per cent) and Madhya Pradesh (7.3 per cent), as against a national average of 3.5 per cent. Bihar and West Bengal experienced negative growth (real terms) in terms of farmers’ income. Doubling the Farmers’ Income 47


Seed Times January - April 2019

11.4%

11.2%

11.6%

0.7%

khan d

K J&

tra ras

1.7%

7.8%

7.0%

0.2%

Jahr

Utt

2.4%

Ma ha

nd

3.3%

ara kha

jara

t

3.5%

Gu

All Inid

rad ar P Utt

CAGR

3.5%

a

3.8%

esh

aka

3.9%

nta

Ker a

la

4.0%

Kar

Cha t

tisg

arh

4.5%

8.6%

6.7%

0.5%

Bih ar We st B eng al

11.8%

11.7%

m

12.9%

11.5%

Assa

12.3%

4.8%

jab

5.4%

aud

Tam il N

esh aP

rad

esh

5.7%

dhr

aP dhy

13.8%

12.9%

8.7%

7.3%

rad

n sth a

Ma

14.1%

Pun

15.8%

7.9%

Raj a

rya

na

8.0%

Ha

Od

ish a

8.3%

17.2%

An

17.5%

16.7%

-1.1%

Real

Fig 1.2 Income growth of farmers of major states of India [NSSO Situation Assessment Survey 2014] In the reference year 2016-17, the average annual income of an agricultural household was estimated as Rs 1,07,172 from cultivation, livestock, non-farm sector activities and wages/ salaries (NAFIS, 2016). Thus, farmers’ income grew at a compounded growth rate of 12 per cent per annum compared to Rs 77,112 per annum as per NSSO assessment in 2012-13. The income levels for 19 out of 29 states are above all India average and 15 states recorded annual compound growth of above 10.5 per cent between 2012-13 and 2015-16.

3. Challenges in Doubling the Farmers’ Income & Way forward Despite being one of the leading food-exporting countries at the global level, one-fifth of rural households in India whose main occupation is agriculture fall below poverty line (Barua et al., 2019). There are some major constraints in achieving the goal of doubling farmers’ income viz. the decreasing crop productivity, the climate change, changing pest complex, the deteriorating seed quality and degradation of natural resources with time. 3.1 Crop Productivity Crop production depends on the availability of arable land and is affected by various factors viz. climate change, agriculture facilities, macroeconomic uncertainty, as well as consumption patterns; it also has a great incidence on agricultural commodities’ prices. Yield is the harvested production per unit of harvested area for crop products. The actual yield that is captured on farm depends on several factors such as the crop’s genetic potential, the weather conditions like amount of sunlight, water and soil heath status, irrigation facility, the presence of weeds and pests. The greatest challenge to the agriculture is to provide adequate food to increasing population. To increase crop production as well as crop productivity we need to combat challenges like scarce water and degrading land resources, recurring droughts, lack of facilities and difficult access to energy. As per the 4th Advance Estimates, DAC&FW, Government of India, the total food grain production increased marginally to 284.83 million tonnes in the 2017-18 crop year. The total production of rice increased by 3.21 million tonnes from 109.70 million tonnes in the year 2015-16 to 112.91 million tonnes while production of Wheat estimated as 99.70 million tonnes is higher by 1.19 million tonnes than the production of wheat in 2015-16 (Table 1.1). The total output of nine oilseeds is estimated as 31.31 million tonnes in 2017-18 which is 0.04 million tonnes higher than

48 Doubling the Farmers’ Income


Seed Times January - April 2019

production in the year 2015-16 (31.27 million tonnes). In commercial crops the production of cotton was estimated as 34.89 million bales (of 170 kg each) which is 1.91 million tonnes higher than previous year 2015-16. Production of sugarcane estimated at 376.90 million tonnes, higher by 70.84 million tonnes than its production during 2015-16 (Table 1.2). From the above data, it can be concluded that the production of food-grains, oil seeds and commercial crops has increased considerably over the years from year 2003 to 2018. The country’s requirement for food grains to provide for its population is projected to be 300 million tonnes by 2025 (Standing Committee on Agriculture, 2016). The estimated total food grains production in 2017-18 is 284.43 million tonnes (4th Advance estimates). If the current growth trend continues, the output goal can be achieved.

Although India is the second highest producer of paddy (rice) in the world (as of 2013), its yield is lower than China, Brazil and the USA. It is also the leading producer of pulses, but its yield is the lowest among the other countries (Agricultural Statistics at a Glance 2015)

Despite high levels of production, agricultural yield in India is lower than other large producing countries. Agricultural yield is the quantity of a crop produced on one unit of land. Although India is the second highest producer of paddy (rice) in the world (as of 2013), its yield is lower than China, Brazil and the USA. It is also the leading producer of pulses, but its yield is the lowest among the other countries (Agricultural Statistics at a Glance 2015). India’s productivity has grown at a slower rate as compared to other countries. For instance, while rice yield in Brazil increased from 1.3 tonne/ha in 1981 to 4.9 tonne/ha in 2011, from 4.3 to 6.7 tonne/ha in China, in this period in India it increased from 2.0 to 3.6 tonne/ha (PRS India Report 2017). 3.2 Changing Pest Complex Plant diseases have caused severe losses to humans in several ways. Plant diseases are a major yield and quality constraint for farmers in India and world. According to the Food and Agricultural Organisation (FAO) of the United Nations (UN), pests, including insects, lead to considerable losses to food crops globally. The total loss of food grains is around 1.3 billion tonnes per year. Plant pathogens (fungal, bacterial, viral or nematodes) damage plant parts above or below the ground. The insect pest complex has been changed in the past years for many crops. Pest whose status has been changing from minor to major or secondary to primary pest is termed as an emerging pest (Rathi and Dalal 2018). Bemisia tabaci (Gennadius) on cotton, Helicoverpa armigera (Hubner) on vegetables and pulses, Spodoptera litura (F.) on vegetables, cotton and oilseeds, Pieris brassicae L. on crucifers, L. trifolii on vegetables and Atherigonia spp. on spring maize, have become increasingly severe during last decade. The invasive pest, coconut eriopyhid mite, Aceria gurrreronis Keiffer caused 64.16 – 89.42per cent nut infestation in at Thane, Maharashtra in 2014. During 2015–16 an epidemic of whitefly was noticed during August in the cotton growing areas of Haryana and Punjab (Kranthi, 2016).

Doubling the Farmers’ Income 49


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3.3 Climate Change Climate change is one of the most critical challenge at global level affecting the agriculture, natural resources, organisms and ultimately the economy of the country. The United Nations Framework Convention on Climate Change (UNFCCC) has recognized that the climate change will impact agriculture and all nations should prepare adaptations to the impacts on food security. 3.4 Seed Quality

Seed quality is the foundation for boosting the agriculture production and marketing. Good quality seeds are genetically and physically pure, vigorous and free from insect pests and pathogens.

Integrated farming system approach has been widely accepted and has been commonly practiced in many countries as one of the tools for the sustainable production system.

Seed quality is the foundation for boosting the agriculture production and marketing. Good quality seeds are genetically and physically pure, vigorous and free from insect pests and pathogens. In the developing countries, informal seed systems are the primary source of seed for smallholder farmers. Improper storage environment, sensitivity of germinating seeds and young seedlings to dehydration stress lead to loss of desiccation tolerance with seed hydration and predicted climate change may further worsen the seed quality. The high quality seeds must possess the two characters viz. efficient seed germination and early seedling establishment that also represent the most susceptible stages of the life cycle of crop plants. Good-quality seed thus can be a significant factor for increasing agriculture production, productivity and enhancing food security. High-quality seeds with enhanced vigour contribute nearly 30per cent of the total production (Afzal et al., 2016). Since, the first goal of a farm household in a changing agro-ecology is to obtain the improved seed with characteristics suitable to farmers’ agro-ecological as well as his socio-economic condition. The availability of good quality seeds along with the support of other inputs is crucial to improve economy of farm household. Improve seed is pivotal in the improvement of food security and farm household livelihood (Abebe et al., 2017). 3.5 Degradation of Natural Resources With the continuous degradation of natural resources (air, water, land, soil etc.) the bright future of the world is uncertain. Due to the nonstop degradation of resources the agriculture production and productivity is also stagnating. To resolve this problem, integrated farming system approach has been widely accepted and has been commonly practiced in many countries as one of the tools for the sustainable production system. It consists of a many eco-friendly practices that aim to achieve higher farm productivity and to attain sustainable agriculture, while decreasing the negative effects of intensive farming and preserving the environment. It is a combination of various agricultural enterprises, viz. cropping, animal husbandry, fishery, forestry and horticultural crops altogether to obtain the aim of high and sustainable crop production. To mitigate the impact of abiotic stresses Integrated Farming System is a suitable method that includes resource recycling and farm diversification.

50 Doubling the Farmers’ Income


Rabi

Kharif

Other Kharif Pulses

1.18

1.04

0.25

0.61

0.99

1.06

0.28

1.70

Rabi

Total

1.33

0.81

1.47

0.38

0.95

5.47

2.35

185.23

86.64

98.59

33.46

7.10

26.36

1.21

0.48

2.43

14.17

2.70

11.48

7.93

1.43

Total

Kharif

0.27

Lentil

Moong

5.72

1.20

Rabi

Rabi

Kharif

Gram

Urad

198.28

2.36

Total

Kharif

87.45

Rabi

37.60

110.84

Total

Kharif

Tur

Cereals

32.22

5.39

Nutri/ Coarse Cereals

1.30

Kharif

Rabi

Barley

0.56

Rabi

Kharif

Small Millets

14.98

1.97

Total

Kharif

Ragi

12.73

2.25

Kharif

Maize

12.11

Rabi

Kharif

Bajra

3.20

7.24

1.84

6.68

Rabi

Total

68.64

4.04

72.16

83.13

10.90

72.23

200405

4.84

Rabi

Kharif

Wheat

88.53

Total

Jowar

78.62

9.91

Kharif

Rice

200304

Rabi

Season

Crop 80.17

1.25

0.54

0.95

0.95

0.26

0.69

0.70

0.91

1.12

0.28

0.84

1.44

0.50

0.94

0.35

6.33

0.90

2.31

203.08

97.30

105.78

33.92

8.31

25.61

1.33

0.48

1.44

15.10

3.54

11.56

8.42

7.15

3.44

3.71

75.81

93.36

13.18

5.60

2.74

195.22

90.21

105.01

34.07

7.33

26.74

1.22

0.47

2.35

14.71

2.55

12.16

7.68

7.63

3.56

4.07

69.35

91.79

13.52

78.27

2 0 0 5 - 200606 07

0.96

0.81

1.52

0.27

1.25

1.46

0.34

1.12

5.75

3.08

216.01

101.46

114.55

40.75

8.86

31.89

1.20

0.55

2.15

18.96

3.85

15.11

9.97

7.93

3.81

4.11

78.57

96.69

14.03

82.66

0.80

0.95

1.03

0.26

0.78

1.17

0.33

0.84

7.06

2.27

219.90

106.45

113.45

40.04

11.49

28.54

1.69

0.44

2.04

19.73

5.61

14.12

8.89

7.25

4.19

3.05

80.68

99.18

14.27

84.91

0.49

1.03

0.69

0.25

0.44

1.24

0.42

0.81

7.48

2.46

203.45

103.70

99.75

33.55

9.72

23.83

1.35

0.38

1.89

16.72

4.43

12.29

6.51

6.70

3.93

2.76

80.80

89.09

13.18

75.92

1.33

0.94

1.80

0.27

1.53

1.76

0.36

1.40

8.22

2.86

226.25

112.52

113.73

43.40

10.32

33.08

1.66

0.44

2.19

21.73

5.09

16.64

10.37

7.00

3.56

3.44

86.87

95.98

15.33

80.65

2 0 0 7 - 2 0 0 8 - 2009- 2010-11 08 09 10

Table 1.1 Production of Foodgrains from 2003-2018 (Million Tonnes)

0.93

1.06

1.63

0.40

1.24

1.77

0.53

1.23

7.70

2.65

242.20

116.98

125.22

42.01

9.58

32.44

1.62

0.45

1.93

21.76

5.27

16.49

10.28

5.98

2.69

3.29

94.88

105.30

12.52

92.78

2011-12

0.62

1.13

1.19

0.40

0.79

1.95

0.47

1.48

8.83

3.02

238.79

116.63

122.16

40.04

10.25

29.79

1.75

0.44

1.57

22.26

6.06

16.19

8.74

5.28

2.44

2.84

93.51

105.24

12.87

92.37

0.71

1.02

1.61

0.65

0.96

1.70

0.55

1.15

9.53

3.17

245.79

123.09

122.70

43.29

12.09

31.20

1.83

0.43

1.98

24.26

7.11

17.14

9.25

5.54

3.15

2.39

95.85

106.65

15.15

91.50

2 0 1 2 - 2013-14 13

0.77

1.04

1.50

0.64

0.87

1.96

0.68

1.28

7.33

2.81

234.87

112.53

122.34

42.86

11.92

30.94

1.61

0.39

2.06

24.17

7.16

17.01

9.18

5.45

3.15

2.30

86.53

105.48

14.09

91.39

201415

0.72

0.98

1.59

0.59

1.00

1.95

0.70

1.25

7.06

2.56

235.22

115.66

119.56

38.52

10.37

28.15

1.44

0.39

1.82

22.57

6.51

16.05

8.07

4.24

2.42

1.82

92.29

104.41

13.00

91.41

0.89

1.22

2.17

0.52

1.64

2.83

0.66

2.18

9.38

4.87

251.98

123.24

128.74

43.77

11.33

32.44

1.75

0.44

1.39

25.90

6.98

18.92

9.73

4.57

2.60

1.96

98.51

109.70

13.40

96.30

2015- 2 01 6 16 17*

0.82

1.61

2.01

0.57

1.44

3.56

0.73

2.84

11.23

4.25

259.59

128.21

131.38

46.99

13.10

33.89

1.77

0.44

1.98

28.72

8.47

20.24

9.13

4.95

2.85

2.10

99.70

112.91

15.41

97.50

2 01 718*

Seed Times January - April 2019

Doubling the Farmers’ Income 51


14.91

Total

52 Doubling the Farmers’ Income

95.05

96.19

213.19

Rabi

Total

198.36

103.31

13.13

8.41

4.72

1.32

200405

117.00

Kharif

8.74

Rabi

Total Foodgrains

6.16

Kharif

Total Pulses

1.44

Rabi

Other Rabi Pulses

200304

Season

Crop

208.60

98.73

109.87

13.38

8.52

4.86

1.36

217.28

106.71

110.58

14.20

9.40

4.80

1.37

2 0 0 5 - 200606 07

230.78

109.82

120.96

14.76

8.36

6.40

1.19

234.47

116.33

118.14

14.57

9.88

4.69

1.28

218.11

114.15

103.95

14.66

10.46

4.20

1.28

244.49

123.64

120.85

18.24

11.12

7.12

1.33

2 0 0 7 - 2 0 0 8 - 2009- 2010-11 08 09 10

259.29

128.01

131.27

17.09

11.03

6.06

1.34

2011-12

257.13

129.06

128.07

18.34

12.43

5.91

1.60

265.04

136.35

128.69

19.25

13.25

5.99

1.51

2 0 1 2 - 2013-14 13

252.02

123.96

128.06

17.15

11.42

5.73

1.74

201415

251.57

126.47

125.09

16.35

10.82

5.53

1.50

275.11

136.78

138.33

23.13

13.55

9.58

1.77

2015- 2 01 6 16 17*

284.83

144.10

140.73

25.23

15.89

9.34

1.76

2 01 718*

Seed Times January - April 2019


9.30

Total

9.21

111.73

Total

Total

Mesta # #

Jute & Mesta ##

137.29

102.72

8.73

93.99

164.29

2370.88

243.54

102.04

141.49

1.74

1.70

75.93

11.87

7.56

4.31

68.76

1.12

6.74

7.93

67.74

15.12

52.62

200405

108.40

8.70

99.70

184.99

2811.72

279.78

112.11

167.67

2.29

1.73

81.31

14.39

9.83

4.56

82.74

1.08

6.41

9.91

79.93

16.95

62.98

200506

# # Lakh bales of 180 kgs. Each

# Lakh bales of 170 kgs. each

* As per the 4th Advance Estimates, DAC&FW, GoI

102.52

Total

Total

Cotton #

Jute # #

2338.62

251.86

Total

Total

Sugarcane

166.72

85.14

Rabi

Total Nine Oilseeds

1.35

Kharif

Rabi

Rabi

Linseed

Safflower

1.97

6.24

Rabi

62.91

78.18

3.06

Kharif

Kharif

Soybean

Sunflower

Rabi

7.82

1.09

Kharif

Kharif

Sesamum

Niger seed

Rapeseed & Mustard

7.97

81.27

Total

Kharif

12.67

Rabi

Castor seed

68.60

Kharif

Groundnut

200304

Season

Crop

112.73

9.56

103.17

226.32

3555.20

242.89

102.77

140.12

2.40

1.68

74.38

12.28

8.62

3.66

88.51

1.21

6.18

7.62

48.64

15.69

32.94

200607

112.11

9.90

102.20

258.84

3481.88

297.55

90.42

207.13

2.25

1.63

58.34

14.63

10.00

4.63

109.68

1.10

7.57

10.54

91.83

18.20

73.62

200708

103.65

7.31

96.34

222.76

2850.29

277.19

99.11

178.08

1.89

1.69

72.01

11.58

8.01

3.57

99.05

1.17

6.40

11.71

71.68

15.51

56.17

200809

118.17

5.87

112.30

240.22

2923.02

248.82

91.53

157.28

1.79

1.54

66.08

8.51

6.36

2.14

99.64

1.00

5.88

10.09

54.28

15.76

38.52

200910

Table 1.2 Production of the Commercial Crops for 2003-18 (Lakh Tonnes)

106.20

6.11

100.09

330.00

3423.82

324.79

105.57

219.22

1.50

1.47

81.79

6.51

4.59

1.92

127.36

1.08

8.93

13.50

82.65

16.22

66.43

2010-11

113.99

6.63

107.36

352.00

3610.37

297.99

91.08

206.91

1.45

1.52

66.04

5.17

3.69

1.47

122.14

0.98

8.10

22.95

69.64

18.37

51.27

2011-12

109.30

5.90

103.40

342.20

3412.00

309.43

101.52

207.91

1.09

1.49

80.29

5.44

3.57

1.87

146.66

1.02

6.85

19.64

46.95

15.08

31.87

2012-13

116.90

6.07

110.83

359.02

3521.42

327.49

101.37

226.12

1.13

1.41

78.77

5.04

3.50

1.54

118.61

0.98

7.15

17.27

97.14

16.56

80.58

2013-14

111.26

5.08

106.18

348.05

3623.33

275.11

83.21

191.89

0.90

1.55

62.82

4.34

3.23

1.11

103.74

0.76

8.28

18.70

74.02

14.71

59.30

2014-15

105.24

5.83

99.40

300.05

3484.48

252.51

85.71

166.80

0.53

1.25

67.97

2.96

2.30

0.66

85.70

0.74

8.50

17.52

67.33

13.66

53.68

2015-16

109.62

5.30

104.32

325.77

3060.69

312.76

97.62

215.13

0.94

1.84

79.17

2.51

1.53

0.98

131.59

0.85

7.47

13.76

74.62

14.14

60.48

2016-17*

101.37

5.08

96.28

348.88

3769.05

313.08

103.12

209.96

0.47

1.75

83.22

2.11

1.28

0.83

109.81

0.74

7.51

15.68

91.79

16.39

75.40

2017-18 *

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Doubling the Farmers’ Income 53


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The farmers’ income can be increased by adopting the suitable scientific technologies viz. use of bio-fertilizers, micro irrigation and seed quality enhancement along with use of improved varieties.

4. WAY FORWARD 4.1 Adoption of region-specific improved varieties The varieties used in most long-term experiments have been bred many times since the beginning of those experiments; improved varieties have emerged from breeding programs. Use of improved and hybrid seeds can help in bridging productivity gaps. The yield that the new hybrids and improved variety seeds provide are relatively higher, and thus could be thought as a potential way of enhancing the productivity. The new varieties developed in the breeding programs have the higher yield potential and are also more resistant to pests and diseases than the older varieties (Table 1.3). The change in varieties is necessary because of changes in the pest complex and the breakdown of resistance over time.

4.2. Technology Adoption Adoption of technologies also helps in increasing the production and productivity of agricultural output. The farmers’ income can be increased by adopting the suitable scientific technologies viz. use of bio-fertilizers, micro irrigation and seed quality enhancement along with use of improved varieties. 4.2.1. Bio fertilizers It can be inferred from the long-term experiments that use of bio-fertilizers is eco-friendly, more efficient, productive and economical to the marginal and small holding Indian farmers as compared to the conventional chemical fertilizers. The more is the use of bio-fertilizers more is the crop productivity, and hence the less is the damage to the soil texture due to the excessive use of chemical fertilizers. 4.2.2. Micro Irrigation Under traditional irrigation methods like flood irrigation in Paddy practiced in major parts of the country, crop utilizes only less than one half of the water while the other remaining half gets lost in conveyance, application, runoff and evaporation. Micro irrigation (MI) methods such as drip and sprinkler system need to be employed for efficient water distribution and application for crop production. Drip and sprinkler irrigation methods are solution to reduce conveyance and distribution loss and allow higher water use efficiency. Drip irrigation has the greatest potential for the efficient use of water and fertilizers through fertigation (Ashoka and Malamasuri, 2015). 4.2.3. Seed Enhancement Seed enhancement refers to the technologies that help to increase the consistency of seed performance, thereby improving a crop yield and quality. Seed enhancements techniques include physical, physiological and biological 54 Doubling the Farmers’ Income


Seed Times January - April 2019

treatments to overcome germination constraints and providing uniform stands, crop development and better yields. Seed enhancement technologies are gaining increasing attention for their potential to confer greater disease resistance in seeds, improve seed vigour and modify seed emergence capabilities. Many shotgun approaches are being used for seed enhancement for the past years, which includes seed priming, magnetic stimulation, seed pelleting and coating. 4.2.4. Genetic Modification/ Genetic Engineering In the recent years, the transgenic varieties and genetically modified/ genetically engineered crops have overtaken the old commercial varieties all over the world. In 1996, genetic modified crops were first grown commercially, since then the global cultivation of GM crops have seen an enormous rise making it the most accepted crop technology of today. In the last two decades, almost 28 countries have adopted this technology since these varieties have the great potential to improve the production and productivity under different agro climatic conditions.

The decision of the Genetic Engineering Approval committee (GEAC), Government of India clearing the release of Bt cotton for commercial cultivation during 2002-2003 crop season, is considered as one of the major milestones in the history of cotton improvement in India.

In India, Bt cotton is the only GM crop under cultivation and it covers around 95 per cent of the total cotton growing area. The decision of the Genetic Engineering Approval committee (GEAC), Government of India clearing the release of Bt cotton for commercial cultivation during 2002-2003 crop season, is considered as one of the major milestones in the history of cotton improvement in India. In a short period of 12 years, around 7.7 million farmers have adopted Bt cotton in India. Presently, India is not only the largest producer of cotton but also the 2nd largest exporter of cotton in the world. Major states under the cotton cultivation are Gujarat, Maharashtra, Telangana, Madhya Pradesh, Karnataka, Andhra Pradesh, Haryana, Rajasthan, Punjab and Tamil Nadu. As a further advancement, a total of 1128 varieties of Bt cotton hybrids have been allowed to be commercially released by GEAC from 2002-2012 for various zones of India. During the 2007–08 and 2008–09 seasons, pink bollworm populations in India were surveyed to evaluate their responses to Cry1Ac and seed powder containing the Cry1Ac and Cry2Ab2. It was indicated in the results that resistance to Cry1Ac had evolved by 2008 in a population sampled from non-Bt cotton in the Amreli district of Gujarat in western India. The data constituted was the first evidence of field-evolved resistance of pink bollworm to Cry1Ac. This initial evidence spurred more extensive evaluations during the 2009–2010 growing season, which confirmed field-evolved resistance to Cry1Ac in Amreli. The lack of cross-resistance to Cry2Ab2 suggests that plants producing this toxin are likely to be more effective against resistant populations than plants producing only Cry1Ac (Dhurua and Gujrar, 2011). Resistance to Bt crops is evolving faster now than before. Consistent with theory, resistance evolved slower with recessive inheritance of resistance, low initial resistance frequency, and abundant refuges of non-Bt host plants. Doubling the Farmers’ Income 55


Seed Times January - April 2019

In India, Pink bollworm have developed resistance to Cry1Ac & Cry2Ab in Bt cotton. Bt crops producing two or more toxins are useful, but are not a solution. Besides deploying a new set of Bt toxins into the seed, two or more at a time, with 20 per cent non-Bt seeds as refugia, and Integrated pest management (IPM) system (IPM) could be an effective solution for cotton in India (Tabashnik et al., 2013). 4.2.5 Climate-Smart Agriculture (CSA)

Climate-Smart Agriculture (CSA) can be explained as one of the many sustainable agricultural practices (SAPs) that can make households withstand the deleterious effects of climate change and variability in smallholder farming systems (Manda et al., 2016).

Climate-Smart Agriculture (CSA) can be explained as one of the many sustainable agricultural practices (SAPs) that can make households withstand the deleterious effects of climate change and variability in smallholder farming systems (Manda et al., 2016). Crop diversification through rotations and intercropping, agro forestry, conservation tillage, cultivation of droughtresistant crops, water harvesting, and integrated soil fertility management are the techniques and practices that falls under the CSA. The adoption of the above-mentioned techniques by the farmers can increase the crop productivity and ultimately livelihoods of farmers.

4.3. Diversification / intensification / relay cropping for higher profitability Crop diversification is an important instrument for economic growth. It is one of the most reliable interventions well suited for land holding of all sizes as a popular risk management strategy. In the case of marginal and small land holders, bed planting of wheat along with vegetables like cucurbits as relay cropping in alternate furrows will yield higher profits in comparison to sole wheat cultivation. Some significant progress has been made during the past few years in crop diversification. However, the level of success varies from country to country as is driven by the market demand.

4.4. Integrated Pest Management Integrated Pest Management (IPM) is an effective, environmentally friendly and strategic approach to crop-pest control. IPM aims to minimize pest populations by combining environmentally friendly pest-control methods and economically viable farming practices (Kabir and Rainis, 2015). IPM strategies aim to protect air, water, and soil resources while meeting specific production objectives (Mangan and Mangan, 1998; National Pesticides Information Center in USA, 2015. The focus of IPM is to protect and encourage natural predators of pest insects rather than the judicious use of pesticides. Currently, most of the rice farmers rely on intense applications of insecticide instead of following the IPM strategies for pest insect control (Mohiuddin et al., 2009).

4.5. Availability of Quality Seeds The impact of investments in agricultural research can be realized only if farmers have better access to high quality seed of the new crop varieties. Since seed quality is one of the main factors that affects crop production potential 56 Doubling the Farmers’ Income


Seed Times January - April 2019

Seed quality comprises many aspects where four key attributes are explicitly identified: genetic purity, physical purity, physiological and health quality. However, seed quality can be affected by environmental conditions under which the crop is grown, the cultural practices used for production and the storage condition.

it should reach farmers in a good quality state. Seed quality comprises many aspects where four key attributes are explicitly identified: genetic purity, physical purity, physiological and health quality. However, seed quality can be affected by environmental conditions under which the crop is grown, the cultural practices used for production and the storage condition. Maintaining seed quality is essential to meet the expectation of farmers as well as consumers. Seed producers should be aware of the technical and regulatory requirements for growing a crop for seed, and ensure that all operations are carried out strictly under specific guidelines in a timely fashion. The quality of the seed can be ensured by following a combination of key technical procedures and regulatory measures. The quality control assurance system by establishing administrative guidelines and technical procedures plays a supervisory role for smooth operation and implementation of the program and for enforcing the regulatory measures to maintain the quality of seed produced. Limited choice in improved varieties seeds, lack of sufficient seed quantity, and high seed production costs are some of the major constraints hindering the development of an effective and efficient seed industry.

4.6. From Conventional to Modern Plant Breeding Plant breeding aims to the improvement of developmental traits such as overall plant architecture, morphological features, leaf structure, vascular architecture and flowering time that has great potential to increase biomass and crop yield. Modern plant breeding is being used as a new and potentially powerful tool and has been added by all the major seed corporations to their crop breeding research programs. It can augment and/or accelerate conventional cultivar development programs, to get better products, and more genetic uniformity, or achieve results not obtained easily through conventional breeding.

Transcriptome profiling, along with the characterization of genetic variation at the level of the entire genome, and associated QTL mapping and Genomewide Association Study (GWAS) are major strategies to identify the genes governing a desirable trait in crop plants.

Recent advances in sequencing-based technologies and functional genomics have provided the ability to decode the genetic basis of desirable plant developmental traits. Transcriptome profiling, along with the characterization of genetic variation at the level of the entire genome, and associated QTL mapping and Genome-wide Association Study (GWAS) are major strategies to identify the genes governing a desirable trait in crop plants. Genomicsassisted breeding approaches along with bioinformatics and metabolomics technology have become essential components of crop improvement programs. More investment from the public and private sectors is necessary to build and maintain capacity for research and sustained crop improvement to ensure the development of crops with higher yield.

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4.7. Policy & Regulatory Reforms 4.7.1 Rationalizing the subsidy schemes There is a need to rationalise the subsidy schemes and strategically allocate more share to develop the weaker links in the supply chain, especially those that boost investment in infrastructure and assets at village level. The capital goods used for creation of, and to modernise the agricultural logistics, such as pre-coolers, integrated pack-houses, reefer vehicles, reefer containers, warehousing, silos, cold stores, etc., can be exempt from GST to reduce the cost burden, as these were previously exempt from excise duty (DFI Committee Report). 4.7.2 Direct cash transfer scheme

Income transfers are not onestop-solution to address the farm distress and measures should be taken to improve the structural reforms in Indian agriculture. Also, it is important to implement income transfers schemes effectively by assuring Centre-state coordination and transparency in the process.

Direct cash transfer is a poverty reduction measure in which government subsidies and other benefits are given directly to the farmers in cash rather than in the form of subsidies. The measure seeks to provide a direct income support to the farmers. The Indian Government’s dominant policy instrument for supporting Indian farmers has been subsidizing key farm inputs (such as fertilizers, power for irrigation, canal waters, agri-credit and crop insurance) and minimum support prices (MSP) for 23 major crops. At present, different schemes are available at all India or state level for direct income support to farmers viz. Pradhan Mantri Kisan Samman Nidhi (All India), Ryatu Bandhu Pathakam (Telangana) and Krushak Assistance for Livelihood and Income Augmentation (Kalia) Scheme (Odisha). Income transfers are not one-stopsolution to address the farm distress and measures should be taken to improve the structural reforms in Indian agriculture. Also, it is important to implement income transfers schemes effectively by assuring Centre-state coordination and transparency in the process. 4.7.3 Crop insurance scheme In 2016, Government launched Pradhan Mantri Fasal Bima Yojana (PMFBY)a new crop insurance scheme to mitigate the rural distress caused by crop failure or damage due to factors like unseasonal rains, monsoon failure, storms, floods, pests and diseases. There are around 118.6 million cultivators in the country. The present coverage of the scheme is below 25 per cent. The government aims to enrol a greater number of marginal and small holders under crop insurance scheme. In the Modified National Agricultural Insurance Scheme, the premium was in the range of 2-15 per cent of the sum insured. The government provided a subsidy of 75 per cent if the premium was above 15 per cent. The insurance companies calculated the premium based on actuarial rate which for some crops were very high that went up to 40 per cent. If the actuarial rate was higher than the capped rate, then the sum insured would come down accordingly. For example, let us consider that the sum insured for a crop is Rs 30,000 with premium capped at 11 per cent. If the actuarial

58 Doubling the Farmers’ Income


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rate is 22 per cent for the crop, then the sum insured will be reduced to Rs 15,000 under MNAIS. In PMFBY scheme there is no cap on the total value government will be contributing towards the subsidy. Even if balance premium is 90 per cent it will be borne by the government. The removal of capping on premium is expected to encourage more farmers to join the scheme. The success of this program lies in increasing awareness amongst the farmers about this scheme. There is also an urgent need to launch campaigns to educate farmers and create awareness about the scheme among them. 4.7.4 Additional investment on agricultural R&D to pave path for innovation. The Indian agricultural R&D system has so far responded well to the national challenges, but complexity of research and regulatory issues needs to be addressed now. There may not be adequate capacity to handle multiplicity of issues. For this it is required to put national efforts and capacity building within the government departments and fostering close interaction among these research systems like CGIAR, NARS etc. Research-extension linkages and revival of public extension shall continue to be a major challenge for improving overall effectiveness of agricultural R&D system. Lack of funds, manpower and skills are major weaknesses of the public extension system (World Bank, 2012).

Apart from funding the ICAR- SAUs system, private funding of research system also needs to be increase. Molecular breeding, biotechnology, genomics, fertilisers, transgenic research and tissue culture had attracted significant investment from the private companies for R&D activity.

In 2014, total public funding for agricultural research and education stood at Rs. 108.5 billion (or approx. 1,800 million US dollars). Of this, the Union Government contributed 43.5 per cent through regular grants to ICAR and the rest 56.5 per cent was contributed by the State Governments for SAUs. A part of ICAR funds (37 per cent) are used for supporting various activities like frontline extension, development of education and coordinated research projects in SAUs. In addition, there are research projects in SAUs which are sponsored under the funding from the World Bank and other donors. Thus, a considerable part of the expenditure incurred by SAUs is funded by ICAR and other sources. The funding of ICAR to SAUs has grown over time, providing an opportunity for better coordination among research, education and extension activities of ICAR institutes and SAUs. This leadership role of ICAR provided a unique advantage for planning and implementation of nationally important research programs in a ‘mission mode’ approach in partnership with SAUs. Apart from funding the ICAR- SAUs system, private funding of research system also needs to be increase. Molecular breeding, biotechnology, genomics, fertilisers, transgenic research and tissue culture had attracted significant investment from the private companies for R&D activity. The success of hybrids and Bt cotton, Single Cross maize hybrids, Floriculture and Agro-Chemicals, Livestock, Diary etc has notably contributed to boost the national R&D. The capacity building and priority of investment of private R&D to generate public good in partnership with public organizations is a more substantive issue that needs to be considered. The ability of private sector

Doubling the Farmers’ Income 59


Seed Times January - April 2019

to refine and commercialize technology developed by public R&D and create competition among private companies can perhaps generate larger benefits for farmers.

Conclusion Most of the Indian farmers are small/subsistence and poor farmers who shoulder the responsibility to feed the expanding population. They are also a key for biodiversity and for improving sustainability. To achieve the aim of doubling the real income of farmers by 2022, the effort and resources necessary to achieve it would have to be at least three times that of the current under a Business As Usual (BAU) scenario levels (Gulati and Saini, 2016).

Simple institutional and functional linkages between research and seed producing institutions; clear seed policies formulation and implementation in the country and capacity building in the R&D with incorporation of experts and extension agents that can strengthen the entire integrated seed system would provide practical solution to the problem.

The use of quality seed, improved varieties and the best suitable cultural practices, is recognized as the most economical way of increasing crop production, productivity and the livelihoods of the farmers. Greater percentage of improvement in agricultural production has come from the use of improved seed. In essence, no agricultural practices, i.e. fertilization, irrigation etc can improve crop production beyond the limit set by seed. In ensuring this, seeds of new varieties must be made available to the farmers in adequate quantity and quality and at affordable prices, and on time. There is a key role to be played by the private sector to bridge the gap between the supply and demand of seed, and make quality seed available to farmers in their villages in the right amount and at the right time. It is expected that the increased supply will also reduce prices, making the technology available to the poorer farmers, and thus increase productivity and economic activity, and reduce poverty and food insecurities. There is a need of investment in research breeding and cultivar development in traditionally open-pollinated cultivars and in the minor crops. More investments in this area will mean cheaper cultivars for growers to choose from and more preservation of crop biodiversity. Simple institutional and functional linkages between research and seed producing institutions; clear seed policies formulation and implementation in the country and capacity building in the R&D with incorporation of experts and extension agents that can strengthen the entire integrated seed system would provide practical solution to the problem.

References Abebe G, Alemu, A (2017). ROLE OF IMPROVED SEEDS TOWARDS IMPROVING LIVELIHOOD AND FOOD SECURITY AT ETHIOPIA. Jimma University, College of Agriculture and Veterinary Medicine, Department of Horticulture and Plant Science. Vol. 5(2). Ashoka, P &Kadasiddappa, M (2015). ENHANCING WATER PRODUCTIVITY THROUGH MICRO-IRRIGATION TECHNOLOGIES IN INDIAN AGRICULTURE. 17. 601-605.

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Barua S, Kumar R, Satyapriya and Singh P (2019). Why challenges of doubling farmers’ income by 2022 are acceptable in context of the present Indian agricultural scenario. CURRENT SCIENCE, VOL. 116, NO. 8. Chand R (2017). Doubling Farmers’ Income: Rationale, Strategy, Prospects and Action Plan, NITI Policy Paper 01/2017 National Institution for Transforming India, Government of India, New Delhi. Chand R, Prasanna, P A L and Singh, A (2011). Farm Size and Productivity: Understanding the Strengths of Smallholders and Improving Their Livelihoods. Economic & Political Weekly.46 (26, 27), 5–11. Chand R, Saxena, R and Rana, S (2015). Estimates and Analysis of Farm Income in India, 1983–84 to 2011–12. Economic & Political Weekly.50, pp. 22. CICR TECHNICAL BULLETIN NO: 22 TRANSGENIC Bt COTTON http://www.cicr.org.in/pdf/transgenic_bt_cotton. pdf. DAC&FW (Department of Agriculture Cooperation & Farmers Welfare) (2018). Ministry of Agriculture & Farmers Welfare, Government of India.www.agricoop.nic.in/doubling-farmers. DFI Committee (2017). Report of the Committee on Doubling Farmers Income, Vol II. Status of Farmers’ Income: Strategies for Accelerated Growth. Department of Agriculture, Cooperation and Farmers’ Welfare, Ministry of Agriculture &Farmers’ Welfare. Dhurua S, Gujar, G T (2011). Field-evolved resistance to Bt toxin Cry1Ac in the pink bollworm, Pectinophoragossypiella (Saunders) (Lepidoptera: Gelechiidae), from India. Pest Management Science. Volume67, Issue8. Doubling Farmers Income by 2022: Trends, Challenges, Pathway and Strategies. DFI Research Bulletin:40. Figure 6: Yield in different countries in 2014-15 (in tonne/ha). State of Agriculture in India, 2017, PRS India,https:// www.prsindia.org/policy/discussion-papers/state-agriculture-india#_edn8. Gulati A and Saini S (2016). From Plate to Plough: Raising farmers income by 2022.The Indian Express, March 28, 2016. Impact of Chemical Fertilizers and Pesticides on Agriculture and allied sectors in the country. (2016). Standing Committee on Agriculture 9th Report. Irfan A, Rehman, H U, Basra, S M A (2016). New Challenges in Seed Biology - Basic and Translational Research Driving Seed Technology. Kabir, M H, and Rainis, R (2015). Do farmers not widely adopt environmentally friendly technologies? Lesson from Integrated Pest Management (IPM). Modern Appl. Sci. 9, 208–215. doi: 10.5539/mas.v9n3p208 Kranthi K R (2016). Let Not The Whitefly See Red. In: Singh, A. (ed.). Cotton Statistics and News. Cotton Association of India, Mumbai. Manda J, Alene A D, Gardebroek C, Kassie M, Tembo G (2016). Adoption and impacts of sustainable agricultural practices on maize yields and incomes: evidence from Rural Zambia. Journal of Agriculture Economics. 67:130–153. Mangan, M, and Mangan, M S (1998). A comparison of two IPM training strategies in China: the importance of concept of the rice ecosystem for sustainable insect pest management. Agril. Hum. Values 15, 209–221. Meena P C, Kumara R, Sivaramanea N, Kumara S, Srinivasa K, Dhandapania A and Khan E (2017). Non-Farm Income as an Instrument for Doubling Farmers’ Income: Evidences from Longitudinal Household Survey. Agricultural Economics

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Research Review Vol. 30 (Conference Number) 2017 pp 127-137. Mellor J (1999). Faster, more equitable growth – The relation between growth in agriculture and poverty reduction agricultural policy development project (Research Report No. 4). Washington, D.C.: United States Agency for International Development. Mohiuddin, M, Hossain, M M, Rahman, A K M , and Palash, M S (2009). Socio-economic study of insecticide use on vegetable cultivation at farm level in Chittagong region. J. Bangladesh Agril. Univ. 7, 343–350. NABARD- India Rural Financial Inclusion Survey 2016-17. National Sample Survey Organisation (NSSO) (2014). Key Indicators of Situation of Agricultural Households in India, National Sample Survey 70th Round, Ministry of Statistics and Programme Implementation, Government of India, New Delhi. NITI Aayog (2015). Raising agricultural productivity and making farming remunerative for farmers. Occasional Paper NITI Aayog, Government of India,1-46. Retrieved from http://niti.gov.in/ writereaddata/files/document_publication/RAP3.pdf. Rathee, M &Dalal, P K (2018). Emerging insect pests in Indian agriculture. Indian Journal of Entomology. Satyasai, K J S (2015). How India farmers borrow, produce and earn? Evidence from recent NSSO surveys, Rural Pulse, Issue VIII, March-April, NABARD, Mumbai. Tabashnik B, Brévault, T & Carriere, Y (2013). Insect resistance to Bt crops: Lessons from the first billion acres. Nature biotechnology. 31. 510-21. 10.1038/nbt.2597. Table 7.2, Agricultural Statistics at a Glance 2015, http://eands.dacnet.nic.in/PDF/Agricultural_Statistics_At_ Glance-2015.pdf. World Bank (2012), Agricultural innovation systems: an investment source book, Washington, DC.

62 Doubling the Farmers’ Income


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Table 1.3 Field crop varieties of different field crops released during last five years for indenting during Rabi 2018-19 Breeder Seed Production Programme A. CEREALS 1. WHEAT S. No

Variety name and parentage

Areas

Developed by

Production Condition

1

K 1317 (K0307/ K9162)

NEPZ

CSA UAT KANPUR

2

DBW 168 (SUNSU PZ CHIBIA)

PZ

ICAR IIWBR, Karnal

3

DBW 173 (KAUZIAAI/K

NWPZ

ICAR IIWBR, Karnal

4

UAS 375 (UAS 320/GW 322// Lok 62)

PZ

UAS

5

Pusa Wheat 1612(HI1612) (KAUZI/ALTAR 84/ AOS/3/MIL AN/ KAUZ/4/H UITES)

NEPZ

6

MACS 4028(d) (MACS 2846/ BHALEGAON3*2)

7

Grain yield (q/ha)

Notification No.

Special features

Nucleus seed (q)

Av.

Pot.

Rainfed, Timely Sown

30.10

38.60

399(E) 24.01.2018

Resistant to brown * rust & leaf blight. Good Chapati quality (Score:8.05)

Irrig., Timely sown

47.50

70.10

1379(E) 27.03.2018

Very good for chapati (8.15/10), biscuit quality, Soft grains (36),

2.30

47.20

57.00

1379(E) 27.03.2018

Tolerant to terminal Heat (HSI =0.98), Resistance to yellow & brown rust

2.50

Rainfed, Timely sown

21.40

29.10

1379(E) 27.03.2018

Resistance to brown & black rust

0.50

ICAR-IARI

Rest. Irrigation

37.60

50.50

1379(E) 27.03.2018

32.4% and 52.4% yield gain at one and two irrigations, Resistance to yellow & brown rust

0.00

PZ

ARI, Pune

Rainfed, Timely sown

19.30

28.70

1379(E) 27.03.2018

Resistance against stem and leaf rust, early maturing (102 days), protein content (14.7%)

*

Pusa Wheat 8777 (HI 8777) (B93/HD 4672// H18627) (d)

PZ

ICAR-IARI RS, Indore

Rainfed, Timely sown

18.50

28.80

1379(E) 27.03.2018

Resistance to leaf rust, protein (14.3%), zinc (43.6 ppm) and iron (48.7 ppm) content

*

8

BRW3723 Sabour Nirjal (ACHYUT/ BL1887)

Bihar

BAU, Sabour

Rainfed, Timely Sown

28.70

47.30

2805(E) 25.08.2017

Drought tolerance

0.00

9

HW 5207 (CoW 3) (HW3029//V76 3 2312 (Yr15))

Tamil nadu

IARI RS Wellington + TNAU Coimbatore

Rest. irrigation, Timely Sown

40.80

59.60

2805(E) 25.08.2017

Resistance to leaf and stem rust, carrying LR24+SR2 4, S-2, Yr15

*

10

Gujarat Junagadh Wheat 463 (GJW 463) (GW496/ KLP010)

Gujarat

JAU, Junagadh

Irrigated, early sown conditions of Saurashtra and timely sown conditions of rest of Gujarat

55.70 (ES), 50.90 (TS)

78.30 (ES), 67.50 (TS)

2805(E) 25.08.2017

Moderately resistance to brown and black rust

*

Doubling the Farmers’ Income 63


Seed Times January - April 2019

S. No

Variety name and parentage

Areas

Developed by

Production Condition

11

KRL283 (CPAN 3004 /KHARCHIA 65//PBW 343

12

Notification No.

Special features

Uttar Pradesh

ICAR CSSRI, Karnal

Salt affected soils (Irrigated, Timely sown)

20.90

41.00

1379(E) 27.03.2018

Resistance to leaf blight, Karnal bunt and hill bunt

*

HUW669 (Malviya 669) (ALTAR84/ HUW 206/ MILAN)

Uttar Pradesh

BHU, Varanasi

Rainfed/ Rest. Irrig.

24.10

43.00

1379(E) 27.03.2018

Resistance to all the three rusts and leaf blight

*

13

Chhattisgarh Genhu-3 (CG 1013) (GW 322/KYZ 0285)

Chhattisgarh

IGKVV RS, Bilaspur

Irrigated, Timely sown

33.40

49.30

1379(E) 27.03.2018

Resistance to leaf rust, Zinc content (43.1 ppm)

*

14

UAS 334 (SITE/ MO/4N AC/TH. AC//3*PVN/3/ MIRLO/BUC)

Karnataka

UAS, Dharwad

Irrigated, timely sown

49.10

59.50 1379(E) 27.03.2018

Resistance to black and brown rust

*

15

PBW 660 (WG6761/ WG6798)

NWPZ

PAU, Ludhiana

Rainfed, Timely sown

35.30

49.30

3544(E), 22.11.16

Chapati quality

2.75

16

HD 3171 (PBW 343/HD2879)

NEPZ

IARI, Delhi

Rainfed, Timely sown

28.00

46.30

1007(E) 30.03.17

Resistance to yellow, brown and black rusts

3.00

17

WB 2 (T. DICOCCON C19309/ AE.SQUARROS A (409)/3/ MILAN/S87230// BAV92/4/ 2*MILAN/ S87320// BAV92)

NWPZ

IIWBR, Karnal

Irrigated, Timely sown

51.60

58.90 1007(E) 30.03.17

Zinc(42.0 ppm) rich whaet variety, resistance to yellow and brown rusts

11.20

18

HI 1605 (Pusa Ujala) (BOW/VEE/5/ ND/VG91 44// KAL/BB/3/ YACO/4/C HIL/6/ CASKOR/3/CROC _1/AE.SQUARROSA (22 4)//OPATA/7/PASTOR/M ILAN/KAUZ/3/ BAV92)

PZ

ICAR-IARI RS, Indore

Rest. irrigation, Timely Sown

29.10

44.00

Resistance to brown and black rust, excellent chapati quality

4.50

19

PBW 723 (Unnat PBW343) (PBW343+Lr57/Yr40 +Lr37/Yr17)

NWPZ

PAU, Ludhiana

Irrigated, Timely sown

49.20

63.20 1007(E) 30.03.17

Resistance to yellow and brown rust

24.50

20

HPBW 01 (PBW1 Zn) (T. DICOCCON C19309/ AE.SQUARROS A (409)/3/MILAN/ S87230// BAV92/4/2*MIL AN/S87320// BAV92)

NWPZ

PAU, Ludhiana

Irrigated, Timely sown

51.7.

64.80

Zn rich variety, resistance to yellow and brown rusts

8.00

64 Doubling the Farmers’ Income

Grain yield (q/ha) Av.

Pot.

1007(E) 30.03.17

1007(E) 30.03.17

Nucleus seed (q)


Seed Times January - April 2019

S. No

Variety name and parentage

Areas

Developed by

Production Condition

21

MACS 3949 (STOTI/ALTAR84/ ALDI 3/THB/ CEP7780//2*MU SK_4)

22

Grain yield (q/ha)

Notification No.

Special features

PZ

ARI, Pune

Irrigated, Timely sown

44.00

64.30

1007(E) 30.03.17

Resistance to stem and leaf rusts, Good pasta quality

1.30

HI 8759(Pusa Tejas) (H18663/H18498)

CZ

IARI RS, Indore

Irrigated, Timely sown

56.90

75.50

1007(E) 30.03.17

Good for pasta making

5.00

23

PBW 677 (PFAU/MILAN/5/ CHEN/A E.SQUARROSA//BCN/3/ VEE#7/BOW/4/ PASTOR)

Punjab

PAU, Ludhiana

Irrigated, Timely sown

59.90

78.20

3544(E) 22.11.16

Resistance to yellow and brown rust

15.50

24

PBW 725 (PBW621// GLUPRO/3*PB W 568/3/ PBW 621)

Punjab

PAU, Ludhiana

Irrigated, Timely sown

61.70

81.50

3544(E) 22.11.16

Resistance to yellow and brown rust

28.50

25

AKAW 4210-6 (PDKV Sardar) (31d SSN-1999-Sel. 186)

Maharashtra

PDKV, Akola

Irrig., Late sown

39.20

62.50

3544(E) 22.11.16

Early maturity

2.72

26

VL 953 (VL Gehun 953) (VW 0185/DORADE 5)

U’Khand

VPKAS, Almora

Irrig., Timely sown

_

3544(E) 22.11.16

Resistance to yellow and brown rust

1.50

27

UP 2784 (CPAN 4078/ PBW 442)

U’Khand

GBPUA&T, Pantnagar

Irrig., TS (Plains)

44.30

55.20 3544(E) 22.11.16

Resistance to leaf and stripe rust

*

28

CG 1015 (Chattisgarh Genhu-4) (NI 908/BL 1986)

Chattisgarh

IGKV, Bilaspur

Irrig., Late sown

36.70

68.80 1007(E) 30.03.17

Resistance to brown and black rust

1.50

29

BRW 3708 (Sabour Samriddhi (PASTOR/MILAN// MILAN /SHA7)

Bihar

BAU, Sabour

Irrig., Timely sown

46.90

_

1007(E) 30.03.17

Tolerant to leaf blight and brown rust

5.00

30

BRW 934 (Sabour Shreshtha) (HUW234/ CBW12-SEL)

Bihar

BAU, Sabour

Irrig., Late sown

43.10

54.00

1007(E) 30.03.17

Resistance to brown rust and loose smut

*

31

UAS 347

PZ

UAS, Dharwad

Rainfed, Timely sown

18.40

24.60

2 680(E) 7.10.2015

Resistance to brown and black rust

*

32

HS 562

NHZ

IARI-RS Shimla

Rainfed/IR , Timely sown

2238 (E) 29.6. 2016

Resistance to yellow rust

33

HD 4728 (Pusa Malwi)

CZ

IARI, New Delhi

Irrig., Timely sown

54.20

2238 (E) 29.6.2016

Good grain quality

34

Raj 4238

CZ

SKNAUD urgapura

Irrig., Late sown

45.50

Av.

Pot.

33.4 (Hills) 44.74 (Plain)

36.0 (RF) 53.7 (IR)

58.8 (RF) 62.2 (IR) 75.10

62.80 2238 (E) 29.6.2016

Good chapatti score (8/10)

Nucleus seed (q)

3.30 * 7.05

Doubling the Farmers’ Income 65


Seed Times January - April 2019

S. No

Variety name and parentage

Areas

Developed by

Production Condition

35

PBW 658

36

Punjab

PAU, Ludhiana

Irrig., Late sown

MPO 1255 (MPO (JW) 1255

MP

JNKVV Powarkhed

Rainfed/RI-Timely sown

37

MP 3382

MP

JNKVV Jabalpur

Irrig., Timely sown

59.20

79.40

2238(E) 29.6.2016

Good chapatti score (8.03/10)

38

HD 3117

NCR

IARI, New Delhi

Conservation Ag. Under Late Sown

47.90

50.10

2238 (E) 29.6.2016

Conservation Ag. Under Late Sown

*

39

HDCSW 18

NCR

IARI, New Delhi

Conservation Ag. Under Early Sown

63.00

73.00

2238 (E) 29.6.2016

Conservation Ag. Under Early Sown

*

40

GW 451

Gujrat

SDAU, Vijapur

Irrig., Timely sown

53.90

66.00 2238 (E) 29.6.2016

41

NIAW 1994 (Phule Samadhan)

Maharashtra

MPKV, Nikhad

Irrig., Timely sown

42

HS 542 (Pusa Kiran) (MILAN/ KAUZI/PRINIA/3 / BABAX)

NHZ

IARI-RS Shimla

Rainfed, Early sown

32.90

49.30

2015

2.90

43

WH 1124 (MUNIA/ CHTO/AMSEL)

NWPZ

HAU, Hisar

Irrigated, Late sown

42.70

56.10

2015

9.50

44

WH 1142 (CHEN AEGILOPS SQUARROSA(TAUS)// FCT/3/2*WEAVER)

MWPZ

HAU, Hisar

Restricted irrigation, Timely sown

48.10

62.50

2015

8.00

45

NW 5054 (THELIN//2*ATTILA*2/P ASTOR)

NEPZ

NDUA&T,Faizabad

Irrigated, Timely sown

47.00

64.20

2015

0.00

46

K 1006 (PBW343/ HP1731)

NEPZ

CSA, Kanpur

Irrigated, Timely Sown

47.00

65.40

2015

4.95

47

HD 3118 (Pusa Vatsala) (ATTILA*2/PB W65// WBL Delhi Late sown L1*2/TUKURU)

NEPZ

IARI, New Delhi

Irrigated, Late sown

41.70

66.40

2015

5.50

48

DBW 107 (TUKURA/ INQLAB)

NEPZ

IIWBR, Karnal

Irrigated, Late sown

41.30

68.70

2015

21.25

49

DBW 110 (KIRITAT /4 /2 *SERI* 2/3KAUZ* 2/ BOW/ /KAUZ)

CZ

IIWBR, Karnal

Irrigated, Late sown

39.00

50.50

2015

14.30

50

MACS 6478 (CS/ TH.SC //3*PVN/ 3 MIRL O/BUC/ 4/ MILAN /5/ TILHI)

PZ

ARI, Pune

Irrigated, Timely sown

45.00

65.70

2015

1.50

66 Doubling the Farmers’ Income

Grain yield (q/ha) Av.

Pot. 46.70

21.3 (RF) 33.8 (RI)

46.1 (TS) 44.2 (LS)

60.70

Notification No.

Special features

112(E) 12.1.2016

Resistant to stripe & leaf rust and leaf blight

1.00

Suitable for pasta

4.00

34.50 2238 (E) (RF) 47.3 29.6.2016 (RI)

62.0 (TS )

2238 (E) 29.6.2016

Nucleus seed (q)

20.00

Good grain Quality

9.20

Suitable for TS and LS conditions

11.51


Seed Times January - April 2019

S. No

Variety name and parentage

Areas

Developed by

51

DBW 93 (WHEAR/TUKURU/WHE AR)

PZ

IIWBR, Karnal

52

HI 8737 (Pusa Anmol) (HI8177/ H18158//H18498)

CZ

IARI-RS Indore

53

UAS 446 (DWR 185/DWR 2006//UAS 419)

PZ

54

HW 1098 (Nilgiri Khapli) (NP 201 Mutant developed through 20 Kr irradiation)

55

Production Condition

Grain yield (q/ha) Av.

Pot.

Notification No.

Special features

Nucleus seed (q)

45.00

65.70

2015

1.00

Irrigated, Timely sown

53.40

81.00

2015

35.00

UAS Dharwad

Rainfed, Timely sown

18.30

24.40

2015

*

Dicoccum growing areas

IARI RS, Wellington

Irrigated, Timely sown

45.50

59.00

2015

*

UAS 304

PZ

UAS Dharwad

Irrigated, Timely sown

46.80

59.90

2014

1.26

56

HD 2967

NEPZ & NWPZ

IARI, New Delhi

Irrigated, Timely sown

50.40

66.00

2014

106.00

57

MP 3336 (JW 3336)

CZ

JNKVV Jabalpur

Irrigated, Late sown

44.70

64.40

2014

30.00

58

DBW 71

NWPZ

IIWBR, Karnal

Irrigated, Late sown

68.90

2014

4.00

59

WHD 948

PZ

HAU, Hisar

Irrigated, Timely sown

69.50

2014

*

60

DBW 90

NWPZ

66.60

2014

3.00

61

HD 3086 (Pusa Gautami)

NWPZ

IARI, New Delhi

Irrigated, Timely sown

54.60

71.10

2014

54.00

62

DBW 88

NHZ

IIWBR Karnal

Irrigated, Timely sown

54.20

69.90

2014

4.75

63

HD 3090 (Pusa Amulya)

PZ

IARI, New Delhi

Irrigated, Late sown

41.40

63.10

2014

1.50

64

HD 3059

NWPZ

IARI, New Delhi

Irrigated, Late sown

39.50

59.40

2014

14.00

65

HPW 349

NHZ

HPKV, Palampur

Rainfed/Irrigated, Timely sown

2014

3.50

66

HI 8713

CZ

IARI-RS, Indore

Irrigated, Timely sown

52.30

68.20

67

WH 1105

NWPZ

HAU, Hisar

Irrigated, Timely sown

51.50

71.60

2013

38.00

68

WH 5216

SHZ

IARI, Wellington

Restricted irrigation, Timely sown

45.60

62.40

2013

*

IIWBR Karnal

Restricted irrigation, Timely sown

Irrigated, Late sown

42.70 46.50

42.80

47.0 (IR) 25.9 (RF)

61.4 (IR) 42.1 (RF)

2013

15.00

* Nucleus seed Production not reported

Doubling the Farmers’ Income 67


Seed Times January - April 2019

2. BARLEY S.No.

New Variety

Year

Agro-eco. Zone / State & Production Conditions

1

DWRB 137

2018

NEPZ IR-TS

Grain yield (q/ha) Avg. 42.49

CZ IR-TS K 1055 (Prakhar)

2018

UP IR-TS

38.30

3

RD 2794

2016

NEPZ IR-TS Salt Tolerant

29.90

4

RD 2849

2016

NWPZ IR-TS

5

BH 959

2015

CZ IR-TS

49.90

6

BH 946

2014

NWPZ IR-TS

51.96

7

BHS 400 (Pusa Sheetal)

2014

NHZ RF-TS

8

Mahamana 113 (HUB 113)

2014

NEPZ IR-TS

9

DWRB 92

2013

NWPZ IR-TS

10

DWRB 91

2013

NWPZ IR-LS

11

RD 2786

2013

CZ IR-TS

12

DWRB 101

2015

13

DWRB 123

2017

14

BH 946

15

VLB 118

53.62

5.15

* 43.30

5.5

69.20

0.00

67.50

1.00

66.32

1.50

58.70

0.62

43.20

63.77

3.00

49.81

69.06

3.20

58.90

1.35

49.76

61.40

7.00

NWPZ IR-TS

49.20

67.44

3.70

NWPZ IR-TS

49.30

67.26

2.75

2014

NWPZ IR-TS

51.96

2014

NHZ RF-TS

IR-Irrigated’ RI-Restricted irrigation; RF- Rainfed; TS-Timely sown; LS-Late sown

68 Doubling the Farmers’ Income

Pot. 67.44

2

* Production not reported

Nucleus seed (q)

1.5 50.00


Seed Times January - April 2019

B. PULSES 1. CHICKPEA S. No.

Variety

Year of release

Developing Institute/SAU

Salient features

Area of adoption

Suitable for normal sown irrigated condition. It matures in 145 days. It has brown seed colour with 25.4 g average 100-seed weight.

NWPZ (Punjab, Haryana, Western U.P., Jammu & Kashmir, Delhi, Northern Rajasthan, Himachal Pradesh and Uttarakhand).

a. Central Release Varieties 1

GNG 1958

2013

2

GNG 1969(K)

2013

Sriganga nagar

Suitable for normal sown irrigated condition. It possess creamy beige seed colour with 26.2 g/100 seeds.

NWPZ (Punjab, Haryana, Western U.P.,Jammu & Kashmir, Delhi, Northern Rajasthan, Himachal Pradesh and Uttarakhand).

3

GLK 28127 (K)

2013

Ludhiana

Large seeds (36.0 g/100 seeds), light yellow or creamy colour with irregular owl head.

NWPZ (Punjab, Haryana, Western U.P.,Jammu & Kashmir, Delhi, Northern Rajasthan, Himachal Pradesh and Uttarakhand).

2015

IARI New Delhi

Large seeded (35.7 g/100 seeds) kabuli chickpea with attractive beige coloured seed.

NWPZ (Punjab, Haryana, Western U.P., Jammu & Kashmir, Delhi, Northern Rajasthan, Himachal Pradesh and Uttarakhand).

2015

Modipuram

Large seeds (27.5 g/100 seeds), white beige colour, moderately resistant to Fusarium wilt.

NWPZ (Punjab, Haryana, Western U.P., Jammu & Kashmir, Delhi, Northern Rajasthan, Himachal Pradesh and Uttarakhand).

4

5

Pusa 3022 (BG 3022) (K)

Vallabh Kabuli Channa-1 (K)

Sriganga nagar

6

GNG 2144

2016

Sriganga nagar

Desi type chickpea with medium bold seeds (15.9g/100 seeds).It has tolerance to fusarium wilt disease.

NWPZ (Punjab, Haryana, Western U.P., Jammu & Kashmir, Delhi, Northern Rajasthan, Himachal Pradesh and Uttarakhand).

7

NBeG 119(K)

2016

Nandyal

Large seeded (38.8 g/100 seeds) kabuli variety.

SZ (Andhra Pradesh, Telangana, Karnataka and Tamil Nadu).

8

CSJ 515

2016

Durgapura

Small brown colour seeds (17.0 g/100 seeds), mod. resistant to dry root rot, wilt & collor rot and tolerant to Ascochyta blight and BGM.

NWPZ (Punjab, Haryana, Western U.P., Jammu & Kashmir, Delhi, Northern Rajasthan, Himachal Pradesh and Uttarakhand).

9

GJG 0809

2017

Junagadh

Medium brown colour attractive seed (21.5 g/100 Seeds), mod. resistant to wilt & stunt, root rot & tolerant to Ascochyta blight.

NHZ (Jammu & Kashmir, Himachal Pradesh, Uttarakhand, North Eastern Hills).

10

GNG 2171

2017

Sriganga nagar

Yellow coloured seed of size 15.9 gm/100 seed; tolerant to fusarium wilt disease

NWPZ (Punjab, Haryana, Western U.P., Jammu & Kashmir, Delhi, Northern Rajasthan, Himachal Pradesh and Uttarakhand).

11

Pant Gram 5

2017

Pantnagar

Brown coloured seed of size 16.2 gm/100 seed; tolerant to fusarium wilt disease

NWPZ (Punjab, Haryana, Western U.P., Jammu & Kashmir, Delhi, Northern Rajasthan, Himachal Pradesh and Uttarakhand)

12

BG 3043

2018

IARI New Delhi

Desi variety with medium large (21.4 g/100 seeds) seed.

NEPZ (Eastern U.P., Bihar, West Bengal, Jharkhand, and Assam).

Doubling the Farmers’ Income 69


Seed Times January - April 2019

b. State released varieties S. No.

Variety

Year of release

Developing Institute/SAU

Salient features

Area of adoption

1

NBeG 3

2013

Nandyal

Large seeded desi variety (24.0g/100 seeds), tolerant to drought with good rooting quality, tolerant to wilt.

Andhra Pradesh

2

JG 12

2014

Jabalpur

Desi variety with medium (15g/100 seeds) seed size. Semi-spreading habit with profuse pods.

M.P.

3

PBG 7 (GL26054)

2015

Ludhiana

Desi variety with medium (16.1g/ 100 seeds) seed size. Tall variety with profuse podding

Punjab

4

Birsa Chana 3

2015

BAO, Jharkhand

Desi type, resistant to lodging, shattering, wilt disease and tolerant to gram pod borer

Jharkhand

5

Bidisha (BG 1084)

2015

Berhampur, WB

Medium maturing desi variety with small seeds (12-14 g/ 100 seeds)

WB

6

JGK 5 (K)

2016

Jabalpur

Extra-large seeded (55-60 g/100 seeds) kabuli variety having resistance to Fusarium wilt and moderate resistance to root rot.

M.P.

7

BDNGK 798 (K)

2016

ARS, Jalna

Kabuli type with white medium (29g/100 seeds) grains. Moderately resistant to wilt and stunt

Maharashtra

8

Gujarat Junagadh Gram 6 (GJG6)

2016

Junagadh

Tolerant to wilt and stunt, suitable for normal sowing.

Gujarat

9

JG 36 (Jawahar Gram 36)

2016

JNKVV, Jabalpur

Semi spreading plant with dark brown seed. Tolerant to wilt.

Madhya Pradesh

10

GBM 2

2016

UAS, Raichur

Tall and erect plant type, suitable for mechanical harvesting

Karnataka

11

Indira Chana - 1

2017

IGKVV, Raipur

Erect plant type with more primary branches, resistant to wilt

Chhattisgarh

12

Nandyal Gram 49 (NBeG 49)

2017

ARS, Nandyal

Semi spreading plant type with medium height, Tolerant to wilt.

Andhra Pradesh

13

Pant Gram-4 (PG 065)

2017

GBPUAT, Pantnagar

Semi erect plant type, tolerant to wilt, BGM and dry root rot

Uttarakhand

14

Pant Gram-3 (PG 043)

2017

GBPUAT, Pantnagar

Semi erect plant type, medium seeds (24.4g/ 100 seeds), tolerant to wilt, BGM

Uttarakhand

15

Pant Kabuli Gram-2 (PG071) (K)

2017

GBPUAT, Pantnagar

Semi-erect plant type, kabuli variety (31.4g/ 100 seeds), tolerant to wilt, BGM

Uttarakhand

16

Dheera (NBG 47)

2017

ARS, Nandyal

Semi-erect plan type, suitable for mechanical harvesting.

Andhra Pradesh

17

Phule Vikram

2017

MPKV, Rahuri

Semi-erect plan type, early maturing, suitable for mechanical harvesting.

Maharashtra

70 Doubling the Farmers’ Income


Seed Times January - April 2019

2. LENTIL S. No.

Name of Variety

Centre responsible for developing

Pedigree

Year of release

Average yield q/ha

Days to maturity

Reaction to major diseases

Area of adaptation

Any other relevant information

1

IPL 316

IIPR, Kanpur

Sehore 74-3 x DPL -58

2013

14-15

110-115

Tolerance to wilt and rust

Central Zone

Large seed

2

RVL 11-6

RAK College, Sehore

JL 3 x DPL 62

2017

11 -12

107-113

Tolerant to Wilt.

Central Zone

Large seed

3

L 4717 (Pusa IARI, New Ageti Masoor) Delhi

ILL 7617 x 91516

2016

12-13

96-106

Resistant to wilt and Ascochyta blight. HIGH IRON CONTENT

Central Zone

Extra early type

4

RKL 14-20 (Kota Masoor

AU, Kota

LL 1049 x RKL 11

2018

12-15

97-104

Tolerant to drought and high temperature

Central Zone

5

L 4727

IARI, New Delhi

Sehore 74-3 x Precoz

2018

11-15

92-128

Moderately resistant to wilt

Central Zone

Suitable for timely planting under rainfed conditions

6

IPL 220

IIPR, Kanpur

(DPL 44 x DPL 62) x DPL 58

2018

14-18

119-122

Resistant to rust and Fusarium wilt

NEPZ

Suitable for normal sown conditions

7

RKL 607-1

AU, Kota

KLB 339 x SL 94-

2018

10-14

98-107

Tolerant to drought and high temperature

Central Zone

Suitable for normal sown conditions

8

Shalimar Masoor-2

Srinagar Centre, SKUAST-K

EC-3109 (Selection from ICARDA material)

2013

12.85

200205

Moderately resistant to wilt and rust, resistant to white grub

Suitable for Kashmir Valley up to an altitude of 1850 m amsl

Large Seeds, Protein content of 23.03%

9

RVL 31

RAK, Sehore

Selection from local collection from Shajahpur

2014

18-19

110-115

Resistant to wilt

M.P.

Large seeds, high biomass

10

KLB 345 (Shekhar 4)

CSAUA&T, Kanpur

Precoz x KLB 231

2014

18-20

110-115

Resistant to wilt and rust

Whole U.P.

Large seed

11

KLB 2008-4 (Krati)

CSAUA&T, Kanpur

LG 362 xDPL 62

2015

18-20

115-120

Resistant to wilt

Whole U.P.

Large seed

12

KLS 09-3 (Krish)

CSAUA&T, Kanpur

Resistant to wilt and rust

Whole U.P.

13

IPL 526

IIPR, Kanpur

Tolerance to Whole U.P. rust & wilt

Whole U.P.

DPL 62 x DPL

2016

10-12

101-110

Medium large seed

Doubling the Farmers’ Income 71


Seed Times January - April 2019

S. No.

Name of Variety

Centre responsible for developing

Pedigree

Year of release

Average yield q/ha

Days to maturity

Reaction to major diseases

Area of adaptation

Any other relevant information

14

Pant Lentil -9 (PL 098)

GBPUA&T, Pantnagar

Pant L 5 x IPL 105

2016

13-14

113-135

Resistant to rust, wilt and ascochyta blight diseases

Uttarakhand

Small seed

15

RLG 5 (Keshwanand Masoor 1)

RARI, Durgapura

Sel. from local germplasm

2016

15-16

130

Mod. resistant to root knot nematode

Rajasthan

Double podded and suitable for rainfed condition

16

Shalimar Masoor -3 (SKUA-L2-96 )

SKUAST-K, Srinagar

KLS 221 (Sel. from IIPR germplasm)

2018

11.5-12.5

204

Tolerant to frost and winter chilling

Suitable for Kashmir valley

17

KLB 345 (Shekhar 4)

CSAUA&T, Kanupr

Precoz x KLB 231

2018

18-20

111

Resistant to rust and wilt

U.P.

Bold seeded

18

KLS 122 (Shekhar 5)

CSAUA&T, Kanupr

KLS 564 x KL 320

2018

16-18

105-115

Resistant to rust and wilt

U.P.

Small seeded

19

IPL 526

IIPR, Kanpur

DPL 62 x DPL 58

2018

7-9

97-128

Tolerance to rust and wilt

U.P.

Large seeded

72 Doubling the Farmers’ Income


Seed Times January - April 2019

3. FIELD PEA S. No.

Name of Variety

Centre responsible for developing

Pedigree

Year of release

Average yield q/ha

Days to maturity

Reaction to major diseases

Area of adaptation

Any other relevant information

Status of nucleus seed

1

HFP 529

CCS HAU, Hisar

HUDP 9 x Arkel 2012 X(HUDP 12 x Arkel)

2012

22-25

120-125

Resistant to powdery mildew & tolerance to rust

NWPZ

Dwarf type

Sufficient quantity of nucleus seed is available

2

IPFD 10-12

IIPR, Kanpur

IPF 99-25 x EC

2014

22-25

110-115

Resistant to powdery mildew

CZ

Dwarf type, green dry seeds

3

HFP 715

CCS HAU, Hisar

DMR 50 x HFP 9948

2014

15-16

115-120

Resistant to powdery mildew

NHZ

Dwarf type

4

IPFD 12-2

IIPR, Kanpur

HUDP 15 x EC 342002

2016

22-25

110

Resistant to Powdery mildew, pod borer and moderately resistant to aphids and leaf miner

CZ

Dwarf type

5

IPFD 11-5

IIPR, Kanpur

(DDR 16 X 2016 HUDP 7) X DDR 16

19-20

105-110

_

CZ

Dwarf type

6

IPFD 2014-2

IIPR, Kanpur

IPFD 99-13 x P 129797

2018

22-23

105-110

Moderately resistant to pod borer, aphid, leaf miner and nematode

CZ

Dwarf type and early vigour

7

Shalimar Pea-1

Srinagar Centre, SKUAST-K

Selection of KFPD-8

2013

13-14

210-215

Resistant to Powdery Mildew and moderately resistant to rust, moderately resistant to pod borer and white grub

Suitable for Kashmir Valley up to an altitude of 1850 meters amsl

Higher protein content 20.65%

8

Pant Pea 155

GBPUA&T, Pantnagar

Pant P 13 x DDR 27

2016

18-20

120-135

Resistant to rust and powdery mildew diseases and tolerant to pod borer pest

Uttarakhand

Dwarf type

9

RFP 20091 (Indira Matar 1)

IGKV, Raipur

Rachna x EC 334160-1

2016

17-18

100-105

Tolerant to powdery mildew and rust

Madhya Pradesh and Chhattisgarh

Suitable for rice fallow cultivation

10

IPFD 6-3

IIPR, Kanpur

KPMRD 389 x HUDP 7

2016

19-20

110-115

Resistant to Powdery mildew and moderately resistant to rust

U.P.

Tendril typed

11

RFP 4 (Keswanand Matar 1)

RARS, Durgapura

Bonneville x NPL

2016

17-18

110-120

Moderately resistant to Powdery mildew, rust, root rot & root knot nematode

Rajasthan

Seed medium bold

Doubling the Farmers’ Income 73


Seed Times January - April 2019

C. OILSEEDs 1. INDIAN MUSTARD

S. No.

Name of Variety

Year of release

Developing Insitute/ SAU

Area of adaptation

Days to maturity

Average yield q/ha

Special Character

1

RH 725

2018

CCSHAU, Hisar

Zone II , Jammu, Punjab, Haryana, Delhi and Northern Raiasthan

142

26.0 -27.0

Suitable for timely sown and rainfed conditions

2

DRMR 1165-40

2018

3

CS-58 (CS 1100 1-2-2-3)

4

Timely sown and rainfed conditions

ICAR-DRMR, Bharatpur

Zone-II, Jammu, Punjab, Haryana, Delhi & Northern Rajasthan

2017

CSSRI, Karnal

HR, PB and UP

138

20.90

For salinity

Pant Rai 21 (PRB 2008-5)

2017

GBPUAT, Pantnagar

UK

122-127

12.0 -18.0

_

5

Pusa Double Zero Mustard- 31

2016

ICAR-IARI, New Delhi

Zone-II Northern Rajasthan, Punjab, Haryana, Delhi, Jammu & Kashmir

142

23.30

First variety of Indian mustard with double low quality traits (low erucic acid content in oil and low glucosinolate content in seed meal) Timely sown irrigated

6

GM-3 (Gujarat Mustard-3)

2016

SD Agril. Univ., Sardar Krushinagar, Gujarat

Gujrat

145-155

29.9

Early and bold seed size

7

Pusa Double Zero Mustard31 (PDZ-1)

ICAR-IARI, New Delhi

NCR

144

23.7

Low erucic and low glucosinolate (double zero)

8

RLC 2 (IC 511615)

2016

PAU, Ludhiana, Punjab

PB

150

20.40

For quality oil

9

PBR 378

2016

PAU, Ludhiana, Punjab

PB

146.5

24.5

Rainfed situation

10

Gujarat Dantiwada Mustard 5 (GDM 5) (SKM 518)

2016

Sardarkrushinagar PB, HR, J&K, RJ Dantiwada Agricultural and DL Univ. Sardarkrushinagar, Gujarat

144

22.1

Rainfed situation

11

Raj Vijay Mustard 1

2016

Rajmata Vijaya Raje Scindhia Krishi Vishwa Vidyalaya, ICAR, Morena, MP

MP

108

17.0-18.0

Suitable for early sowing

12

JK Samriddhi Gold (JKMS 2)

2016

JK Agri Genetics Ltd., Hyderabad, Telangana

UP

125-130

20.0-30.0

_

13

Bayer Mustard 5450

2016

Bayer Bio Science Pvt., Hyderabad, Telangana

UP

130-135

28.0-30.0

For quality oil

14

RLC 3

2016

PAU, Ludhiana, Punjab

PB

149

18.20

_

15

Gujarat Dhantiwada Mustard 4

2015

SDAU, Sardar Krushinagar, Gujarat

GJ

112

24.17

High yield

16

Albeli 1

2015

Shakti Vardhak Hybrid Seeds Pvt. Ltd, Hisar

RJ, UP, MP and UK

140-145

21.3

Suitable for irrigated condition

74 Doubling the Farmers’ Income


Seed Times January - April 2019

17

Pant Rai-20

2015

GBPU&T, Pantnagar, Uttarakhand

UK

124

19.7

_

18

PBR-357

2015

PAU, Ludhiana, Punjab

PB, HR, DL, J&K and RJ

147

25.2

High yield

19

RGN-298

2015

ARS, S. K. Rajasthan Agricultural University, Sriganganagar, Rajasthan

RJ, PB, HR, DL, J&K and UP

143

21.7

Rainfed Timely sown Condition

2. YELLOW SARSON

1

JK Pukhraj (JKYS 2)

2016

JK Agri Genetics Ltd., Hyderabad, Telangana

UP

115-120

15.0-20.0

_

2

Pant Sweta (PYS 2007-10)

2017

GBPUA&T, Pantnagar

UK

110-120

10-15

_

3. GOBHI SARSON 1

RSPN 25

2014

SKUAST, Jammu

J&K

145-155

15.0-18.0

_

2

GSC 7 (GSC 101)

2015

PAU, Ludhiana

PB, HR, HP, J&K and RJ

139-232

19.2

Low erucic and low glucosinolate (double zero)

4. TORIA 1

Pant Hill Toria-1 (PT2006-4)

2016

GBPUAT, Pantnagar

UK

122-134

5.0- 7.5

Spring type Toria

2

Pant Toria 508 (PTE2008-2)

2016

GBPUAT, Pantnagar

UK

_

_

_

3

TL-17

2016

PAU, Ludhiana, Punjab

PB

90

13

_

4

Sushree

2012

OUAT, Bhubneshwar

OD

75

13.8

_

5

Raj Vijay Toria 1

2017

Rajmata Vijaya Raje Scindhia Krishi Vishwa Vidyalay, ICAR, MP

MP

98-105

11.0-16.0

Suitable for rainfed and irrigated condition, tolerant to shattering, suitable for sowing in first to second week of sepember, tolerant to drought condition

2016

PAU, Ludhiana

PB

157

19.25

Suitable for mechanical harvesting

5. KARAN RAI (B. carinata) 1

BJC 1 (PC ^) (African sarson)

6. TARAMIRA 1

Jwala Tara (RTM 1355)

2017

SKNAU, Jobner, Jaipur, Rajasthan,

Rajasthan, Haryana, Punjab, Uttar Pradesh, Madhya Pradesh, Gujarat and Delhi

137-142

12-13

Suitable for rainfed situation, Maturity days, Av. Yield

2

Jobner Tara (RTM1351)

2016

SKNAU, Jobner, Raj

Rajasthan, Haryana, Punjab, Uttar Pradesh, Gujarat, Delhi, Uttarakhand and Maharashtra

130-145

12-15

Suitable for rainfed situation, Maturity days, Av. q/ha

Doubling the Farmers’ Income 75


Seed Times January - April 2019

7. SAFFLOWER S. No

Name of Variety/ hybrid/inbred line developed by ICAR Institue/ Dte./ NRCs

Year of Notification

Special features

Areas of Adaptability

Nucleus Seed availability

Available

1

SSF-708

2012 Moderately tolerant to aphid Yield (kg/ha) - 1300-2200 Days to maturity - 115-120 Oil content (%) - 29

Western Maharashtra

2

PKV-Pink (AKS 311)

2013

Moderately tolerant to wilt Yield (kg/ha) - 1500 Days to maturity - 135-140 Oil content (%) -30

Vidharbha region of Maharashtra

3 NARI -H-23

2014

Tolerant to wilt and aphids Yield (kg/ha)- 1710 Days to maturity - 114-156 Oil content (%) -31

MS, KK,MP. Chattisgarh, Rajasthan, WB

4

NARI-57

2015

Resistant to wilt Yield (kg/ha)-1500 Days to maturity - 118-151 Oil content (%)-29

Ms, KK,MP, WB, Rajasthan, UP, Punjab, Jharkhand

5

NARI-96

2018

Higher tolerance to wilt than national checks A-1 and PBNS 12 and on par with the national checks for Alternaria Yield (kg/ha)-2023 Oil content (%) -33.21

MS, Telangana, AP, MP, Chattisgarh, Rajasthan

6

DSH-185

2018

Resistant to wilt Yield (kg/ha)-1740 Days to maturity - 121-143 Oil content (%) - 28

All India

Areas of Adaptability

Remarks

8. LINSEED S. No

Name of Variety

Year of release

1

KL 263

2018

HP, Punjab and J &K

2

JLS 95

2018

MP, UP

3 Sabour Tisi-1

2018

Bihar, JH, Assam

4

RLC 143

2018

CG, Odisha, MP

5

Arpita

2016

Odisha

76 Doubling the Farmers’ Income

Nucleus Seed availability Available

Replacement of Himani, Shubhra, Garima and Surbhi in Bihar and Jharkhand

Replacement of earlier linseed varieties in Odisha


Seed Times January - April 2019

D. FORAGES Rabi varietal details 1. OAT

S. No.

Variety

Year

Area of adoption

Special feature

1

OL 1760

2017

Telengana, Andhra Pradesh, Karnataka and Tamil Nadu

Resistant to leaf blight and was superior in terms of dry matter yield, green fodder yield, crude protein yield

2

OL-1769-1

2017

Rajasthan, Haryana, Punjab, Uttarakhand and Western UP

3

SKO-225

2017

J&K, HP and Uttarakhand

4

OS-424

2017

J&K, HP and Uttarakhand

5

JHO 2012-2

2017

Telangana, Andhra Pradesh, Karnataka and Tamil Nadu

6

RO-11-1

2016

North East (West Bengal, Odisha, Jharkhand, Bihar, eastern UP, Manipur, Assam), North West (Rajasthan, Punjab, Haryana, Uttarakhand), Central zone (Maharashtra, Gujarat, Madhya Pradesh, Chhattisgarh, central UP), South zone (Telengana, Andhra Pradesh, Karnataka, Tamil Nadu)

7

OL-1804

2016

North East Zone (West Bengal, Odisha, Jharkhand, Bihar, eastern UP, Manipur, Assam)

8

OS-405

2016

Central zone (Maharashtra, Gujarat, Madhya Pradesh, Chhattisgarh, central UP)

9

OS-403

2016

North West (Rajasthan, Punjab, Haryana, Uttarakhand)

10

OL-1802

2016

Chhattisgarh, Central UP

11

OS-403

2015

North East (Assam, Manipur, Odisha, West Bengal, Eastern UP, Bihar, Jharkhand) and South Zones (Telangana, Andhra Pradesh, Karnataka, Tamil Nadu)

12

JHO 2009-1

2015

Central Zone (UP, MP, Maharashtra, Gujarat)

JSBC-1

2017

Maharashtra, Rajasthan, Punjab, Haryana, UP and MP

Single cut short duration condition

1

TNLC-14

2017

Telangana, Andhra Pradesh, Karnataka and Tamil Nadu

Resistant to rust and aphids and superior for forage and seed yield

2

RRB-07-1

2014

Punjab and Rajasthan

Superior for green fodder yield, dry matter yield, per day productivity for green fodder, leafiness and crude protein content in Hill Zone Superior for green fodder yield, dry matter yield, crude protein yield, per day productivity for green fodder and dry fodder

2. BERSEEM 1

3. LUCERNE

Doubling the Farmers’ Income 77


Seed Times Seed September Times January - December - April 2019 2018

Doubling Farmers’ Income through Livestock Dr Geeta Veterinary officer, Uttarkashi, Uttarakhand, India pipaliyageeta@gmail.com

India has vast livestock resources. Around 20.5 million people in India depend upon livestock for their livelihood. The livestock contributes food and non-food items to the society. They impart food items such as Milk, Meat and Eggs for human consumption. India is number one in production of milk in the world. It is producing about 165.4 million tonnes of milk in a year (2016-17).

78 Doubling the Farmers’ Income

Introduction India has vast livestock resources. Around 20.5 million people in India depend upon livestock for their livelihood. The livestock contributes food and non-food items to the society. They impart food items such as Milk, Meat and Eggs for human consumption. India is number one in production of milk in the world. It is producing about 165.4 million tonnes of milk in a year (2016-17). Similarly, it is producing about 88.14 billion of eggs, 8.89 million tonnes of meat in a year. The value of output of livestock sector at current prices was Rs 8,11,847 crores in 2015-16. Apart from the food items, the livestock also contributes to the production of wool, hair, hides and pelts. India is generating around 43.5 million Kg of wool per annum. Leather is the most important product which has a very high export potential (Annual Report 2017-18). Despite lot of advancements in the use of mechanical power in Indian agricultural operations, nonetheless, bullocks are still the back bone of Indian agriculture. The bullocks are saving a lot on fuel which is a necessary input for using mechanical power like tractors, combine harvesters etc. Other potential role of livestock is use of pack animals like camels, horses, donkeys, ponies, mules etc to transport goods in different parts of the country. Also, in situations like hilly terrains mules and ponies serve as


Seed Times January - April 2019

the only alternative to transport goods. Likewise, the army has to count on these animals to carry various items in high areas of high altitude. Dung and other animal wastes serve as very good farm yard manure and the value of it is worth several crores of rupees. In addition, it is also used as fuel (bio gas, dung cakes) and for construction as poor man’s cement (dung).

Livestock are also considered as a biological control of bush, plants and weeds. Livestock offer security to the owners, are good companions and also the animals like cocks, rams, bulls etc are used for competition and sports.

Livestock are considered as “moving banks” because of their potentiality to dispose of during emergencies. They serve as capital and in cases of landless agricultural labourers and many times it is the only capital resource they possess. Livestock support as a treasure and in case of crisis, they aid as guarantee for getting loans from the local sources such as money lenders in the villages. Livestock are also considered as a biological control of bush, plants and weeds. Livestock offer security to the owners, are good companions and also the animals like cocks, rams, bulls etc are used for competition and sports. Livestock sector contributes 4.11% GDP and 25.6% of total agriculture GDP. Livestock plays an important role in the economy of farm and non-farm households. It contributes 16% to the income of small farm households as against an average of 14% for all rural households. Hence, livestock is a principle source of income of two-third of rural community. It also provides employment to about 8.8 % of the total population in India.

Role of livestock in farmers’ economy The livestock exhibit a significant role in the economy of farmers. The livestock serve the farmers in different ways. Farmers earn income from various sources, viz. crop cultivation, horticulture, dairy, poultry, fisheries, other allied activities, non-farm activities and wage employment.

Status of Livestock resources in India As per 19th Livestock census, 2012 (GOI, 2014) India’s livestock sector is one of the largest in the world with a holding of 10.86% of world livestock population about 512.05 million nos. In world’s total livestock population India ranks first in the population of buffaloes (57.83%) followed by cattle (15.06%), sheep (7.14%), goats (17.93%), camel (2.18%), equine (1.3%),pigs (1.2%), chickens (4.72%) and ducks (1.94%). However, as compared to the previous census the total livestock population in India has decreased by 3.33%. In total livestock population, highest contribution is of cattle (37.28 %) followed by buffalo (21.23 %), sheep (12.71%), goat (26.4%), pig (2.01 %) and others 0.5%.Total population of poultry in India is about 729.21 million, which includes 692.65, 23.54 and 13.02 million chickens, duckand turkeys & other poultry species respectively. India is the second largest poultry market in the world generating about 63 billion eggs and 649 million poultry meat. It is ascertained that growth pattern in total poultry population is quite more in

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India ranks first in the population of buffaloes (57.83%) followed by cattle (15.06%), sheep (7.14%), goats (17.93%), camel (2.18%), equine (1.3%),pigs (1.2%), chickens (4.72%) and ducks (1.94%). However, as compared to the previous census the total livestock population in India has decreased by 3.33%. In total livestock population, highest contribution is of cattle (37.28 %) followed by buffalo (21.23 %), sheep (12.71%), goat (26.4%), pig (2.01 %) and others 0.5%.

comparison to total livestock population. India ranks third in the population of sheep (72 millions), fifth in the population of ducks and chicken and tenth in camel population in the world (Table 1.1). Dairying has become an important source of income for millions of rural families. It is one of the most important assets for providing employment and income generating opportunities particularly for women and marginal farmers. The per capita availability of milk has reached to a level of 355 grams/day during the year 2016-17 which is more than the world’s average availability 302 grams per day in 2016 (Annual Report 2017-18). Most of the milk in the country is produced by small and marginal farmers. Strengthening the small and marginal farmers for the milk production would help India become a milk exporter in the world. With globalization of the dairy industry, private contribution has augmented quite significantly. However, the share of organized sectors in milk acquisition is very low as a large fraction of the milk and milk products are sold through the informal approach (Table 3). The informal demand consumes approximately 41 % of the milk and milk products produced in the country, contributing for about 75 % of the marketable excess of milk. The formal pathway, with its packaged milk and dairy products, contributes for only about 25%% of the marketable surplus, which is about 15% % of the production. To strengthen milk production and dairying activities via scientific and holistic approach for obtaining higher levels of milk production and productivity and to meet out the augmenting requirement for milk in the country, NPBBDD programme was launched in 2014. It was developedby combining four current schemes of the Department of Animal Husbandry, Dairying and Fisheries in the dairy sector namely, National Project for Cattle and Buffalo Breeding (NPCBB), Intensive Dairy Development Programme (IDDP), Strengthening Infrastructure for Quality and Clean Milk Production (SIQ and CMP) and assistance to cooperatives. NPBBDD has two components National Programme for Bovine Breeding (NPBB) and National Programme for Dairy Development (NPDD). With this NPDD scheme the per day new processing capability has been increased to 15.17 lakh litres and 4.04 lakh litres per day new milk chilling capacity has been installed till 2017-18 (Annual Report 2017-18). Poultry production plays a crucial role in acquiring nutritional guarantee of the country in rural areas. The egg production in the country has risen from around 83 billion nos. in 2015-16 to around 88 billion in 2016-17 recording a rise of about 6% (Table 1.2). The targeted egg production by 2022 is 106 billion at a CAGR of 5%. The per capita availability of egg has increased from 61 in 2013-14 to 66 in 2015-16 andit has increased to 69 in 2016-17. Egg production is presently having a 5-6% CAGR. However, with novel scientific approaches like 500 eggs in 100 weeks compared to present 320+ eggs in 72 weeks, an obtainable significant increase in egg production can be expected by 2022-23 and it is possible if sufficient policy support is implemented to

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The commercial poultry sector is well matured in India. However, it needs policy support. The presently convenient veterinary support in terms of infrastructure (for hospitals and diagnostic labs) and technical manpower are unsatisfactory. Maize and Soya forms the major part of poultry feed but the cost of both the feed ingredient is very high in India due to lower productivity per hectare of land in comparison to other countries like China, USA and Brazil.

poultry industry. The poultry meat production in the country has enhanced to nearly 3.46 million tonnes during the year 2016-17 from 3.26 million tonnes during the year 2015-16 at around 6% growth rate. The production of meat and meat products has exhibited a remarkable growth. The targeted Poultry Meat production by 2022 is 4.20 million tonnes at a CAGR of 5% (National Action Plan for Egg and Poultry-2022). In addition to the dairy and poultry sector, overall fish production has also recorded a rise of about 18.86% as compared to the last three years, whereas inland fish production has recorded a growth of more than 26%. The combined production of all types of fisheries (capture and culture), the total fish production in the country has reached at about 11.41 million tonnes in 2016-17.

Barriers in increasing the livestock production One of the major problems in doubling farmers’ income is improving productivity of low-producing animals. The average annual milk yield of Indian cattle is only 50 % (1172 kg) of the global average. Similarly, the meat yield of most species is 20-60% lesser than the world average. Inadequate prophylactic vaccination and deworming are also the important issues to be taken care of. Persistent outbreaks of diseases like FMD, BQ, PPR, Brucellosis, Swinefever and Avian Influenza etc. extend decreased livestock productivity and production. The commercial poultry sector is well matured in India. However, it needs policy support. The presently convenient veterinary support in terms of infrastructure (for hospitals and diagnostic labs) and technical manpower are unsatisfactory. Maize and Soya forms the major part of poultry feed but the cost of both the feed ingredient is very high in India due to lower productivity per hectare of land in comparison to other countries like China, USA and Brazil. There is the insufficiency of dry fodder (10%), concentrates (33%) and green fodder (35%) in our country (11TH FIVE YEAR PLAN 2012-17). Livestock sector secures only about 12% of the total public investment on agriculture and allied sectors and about 4-5% of the total institutional credit issuing to agriculture and allied sectors (Dinani et al. 2018). There is scarce funding, subsidy and bank loan in livestock in comparison toother agriculture sectors. Presently, only 6% of the animal heads (excluding poultry) are supported with insurance cover. Only about 5%of the farm households in India keep access to information on livestock in contrast to 40.4% for crop farming. It was noted that at present, the livestock extension efforts were sporadic and highly unorganized for want of an institutional set up at central level as well as at the level of the states. There are several states not having adequate egg production to meet their demand and depend on the imported eggs and chicken meat from other states. Organized slaughtering facilities are also too incompetent. Lack of connection to organized markets and insufficient profits sidetrack farmers from investing into improved technologies and quality inputs (11TH FIVE YEAR PLAN 2012-17). Doubling the Farmers’ Income 81


Seed Times January - April 2019

Conclusion A large number of rural populations in India rely upon agriculture for their living. Livestock plays a critical role in imparting nutritive food to both in rural and urban households. Since agriculture could only arrange employment for a maximum of 180 days in a year, the farmers rely upon livestock for applying their labour during off season. As the livestock distribution is much more equitable than land distribution. Thus, changes in the strategies for livestock and dairying have crucialimpacton the economy of the small holder farmers and for reduction of poverty.

Genetic elevation of poor performing livestock through crossbreeding, upgrading and selective breeding to magnifying their production along with local adaptability, economic feeding practices, proper health care and management practices will result in augmentation of production. The development of the market for the products, product processing, packaging, value addition, cold storage facilities should be taken care of by the Government.

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Genetic elevation of poor performing livestock through crossbreeding, upgrading and selective breeding to magnifying their production along with local adaptability, economic feeding practices, proper health care and management practices will result in augmentation of production. The development of the market for the products, product processing, packaging, value addition, cold storage facilities should be taken care of by the Government. The easy availability of high yielding germplasm is of paramount importance to produce the animals with higher productivity. The livestock insurance should be expanded to cover the entire country. It should also cover small ruminants like sheep, goats and poultry with the pattern of assistance that is available for cows and buffalos. Adopting diversified and integrated farming, contract livestock farming and adopting PPP model will reinforce the livestock production. In a market driven economy, the future of the small holder rural milk producer will be protected only when consumer needs and wants are effectively connected with the functions of milk processing and milk production units. For that repetition of AMUL co-operative model for milk production is required to be followed. The deployment of appropriate technology for improving productivity and reducing the cost of milk production, also improving the quality of milk at the farm level–such as cooling, avoiding contamination, machine milking of high yielder is required at an appreciable required scale. Similarly Namakkal model for poultry production and increasing backyard poultry farming would drive the poultry production. Also promoting organic farming to specific areas along with increased funding, subsidy and easy availability of bank loan for livestock farming is mandatory. Thus, all these discussed points are the key areas to increase the livestock production and productivity and hence doubling the farmers’ income.


Seed Times January - April 2019

Table 1.1 Livestock population * indicates including Mithun and Yak S. No

Species

Number (in millions)

Ranking in the world population

1

Cattle

190.9

Second

2

Buffaloes

108.7

First

Total*

300

First

3

Sheep

65.0

Third

4

Goats

135.2

Second

5

Pigs

10.3

-

6

Others

1.7

-

Total livestock

512.3

Total poultry

729.2

Seventh

7

Duck

-

8

Chicken

-

9

Camel

-

Fifth Tenth

Table 1.2 Egg and Poultry meat production in India Year

Egg Production (million tonnes)

Poultry Meat Production (million tonnes)

2011-12

66.45

2.48

2012-13

69.73

2.68

2013-14

74.75

1.92

2014-15

78.48

3.05

2015-16

82.93

3.26

2016-17

88.03

3.46

106

4.20

Targeted by 2022

References Annual Report. 2017-18. Department of Animal Husbandry, Dairying and Fisheries, Ministry of Agriculture and Farmers Welfare, Govt. of India. Dinani, O P Tyagi, P K Giri, A K Popat D S (2018). Role of livestock in doubling the farmers income - national perspective and the way forward. International Journal of Science, Environment and Technology. Vol. 7(2): 496 – 504. Eleventh Five-Year Plan (2007-12). Department of Animal Husbandry, Dairying and Fisheries. India, M. 2012. 19th Livestock Census—2012: All India Report. National Action Plan for Egg & Poultry-2022 For Doubling Farmers’ Income by 2022. Department of Animal Husbandry, Dairying & Fisheries Ministry of Agriculture & Farmers Welfare Government of India. Doubling the Farmers’ Income 83


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NOTES

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NOTES

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NOTES

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Seed Times January - April 2019

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